Solvency Capital Requirement - Standard Formula

Export part as

1

Application and Definitions

1.1

Unless otherwise stated, this Part applies to:

  1. (1) a UK Solvency II firm; and
  2. (2) in accordance with Insurance General Application 3, the Society, as modified by 8.

1.2

In this Part, the following definitions shall apply:

bankruptcy remote

in relation to client assets, means that effective arrangements exist which ensure that those assets will not be available to the creditors of a CCP or of a clearing member in the event of the insolvency of that CCP or clearing member respectively, or that the assets will not be available to the clearing member to cover losses it incurred following the default of a client other than those that provided those assets.

basis risk

means the risk resulting from the situation in which the exposure covered by the risk-mitigation technique does not correspond to the risk exposure of the UK Solvency II firm.

CCP

means a CCP as defined in point (1) of Article 2 of Regulation (EU) No 648/2012 of the European Parliament and of the Council.

CCP-related transaction

means a contract or a transaction listed in of Article 301(1) of the Counterparty Credit Risk (CRR) Part between a client and a clearing member that is directly related to a contract or a transaction listed in that paragraph between that clearing member and a CCP.

clearing member

means a clearing member as defined in point (14) of Article 2 of Regulation (EU) No 648/2012.

client

means a client as defined in point (15) of Article 2 of Regulation (EU) No 648/2012 or an undertaking that has established indirect clearing arrangements with a clearing member in accordance with Article 4(3) of that Regulation.

collateral arrangement

means an arrangement under which a collateral provider does one of the following:

  1. (1) transfers full ownership of the collateral to the collateral taker for the purposes of securing or otherwise covering the performance of a relevant obligation; or
  2. (2) provides collateral by way of security in favour of, or to, a collateral taker, and the legal ownership of the collateral remains with the collateral provider or a custodian when the security right is established.

continuity options

means all legal or contractual policyholder rights which allow that policyholder to fully or partly establish, renew, increase, extend or resume insurance or reinsurance cover.

covered bond

means a bond that is issued by a credit institution which has its registered office in the UK or an EEA State and is subject by law to special public supervision designed to protect bondholders and in particular protection under which sums deriving from the issue of the bond must be invested in conformity with the law in assets which, during the whole period of validity of the bond, are capable of covering claims attaching to the bond and which, in the event of failure of the issuer, would be used on a priority basis for the reimbursement of the principal and payment of the accrued interest.

currency risk

means the sensitivity of the values of assets, liabilities and financial instruments to changes in the level or in the volatility of currency exchange rates.

disability-morbidity risk

means the risk of loss, or of adverse change, in the value of insurance obligations, resulting from changes in the level, trend or volatility of disability, sickness and morbidity rates.

discontinuance

means, in relation to an insurance policy, surrender, lapse without value, making a contract of insurance paid-up, automatic non-forfeiture provisions or exercising other discontinuity options or not exercising continuity options.

discontinuity options

means all legal or contractual policyholder rights which allow that policyholder to fully or partly terminate, surrender, decrease, restrict or suspend insurance cover or permit the insurance policy to lapse.

equity risk

means the sensitivity of the values of assets, liabilities and financial instruments to changes in the level or in the volatility of market prices of equities.

health underwriting risk

means

  1. (1) expense risk;
  2. (2) NSLT health premium and reserve risk; and
  3. (3) health catastrophe risk.

interest-rate risk

means the sensitivity of the values of assets, liabilities and financial instruments to changes in the term structure of interest rates, or in the volatility of interest rates.

lapse risk

means the risk of loss, or of adverse change, in the value of insurance obligations, resulting from changes in the level or volatility of the rates of policy lapses, terminations, renewals and surrenders.

life-catastrophe risk

means the risk of loss, or of adverse change, in the value of insurance obligations, resulting from the significant uncertainty of pricing and provisioning assumptions related to extreme or irregular events.

market risk concentrations

means the additional risks to a firm stemming either from lack of diversification in the asset portfolio or from large exposure to default risk by a single issuer of securities or a group of related issuers.

pool exposure of type A

means the risk ceded by a firm to a pooling arrangement where the firm is not a party to that pooling arrangement.

pool exposure of type B

means the risk ceded by a firm to another member of a pooling arrangement, where the firm is a party to that pooling arrangement.

pool exposure of type C

means the risk ceded by a firm which is a party to a pooling arrangement to another firm which is not a member of that pooling arrangement.

pooling arrangement

means an arrangement whereby several undertakings which are UK Solvency II undertakingsthird country insurance undertakings or third country reinsurance undertakings agree to share identified insurance risks in defined proportions, but the parties insured by the members of the pooling arrangement are not themselves members of the pooling arrangement.

property risk

means the sensitivity of the values of assets, liabilities and financial instruments to changes in the level or in the volatility of market prices of real estate.

resecuritisation

has the meaning given in Securitisation 1.2.

securitisation

has the meaning given in Securitisation 1.2.

securitisation position

has the meaning given in Securitisation 1.2.

senior securitisation position

means a senior securitisation position within the meaning of Article 242(6) of the CRR.

standard equity capital charge

means the standard capital requirement for equity risk calculated in accordance with 3D before any symmetric adjustment is applied.

STS securitisation

means

  1. (1) an STS securitisation as defined by regulation 9 of the Securitisation Regulations; 2024 (SI 2024/102);
  2. (2) an overseas STS securitisation as defined by regulation 12(2) of the Securitisation Regulations 2024 (SI 2024/102); or
  3. (3) a qualifying EU securitisation as defined by regulation 12(3) of the Securitisation Regulations 2024 (SI 2024/102).

symmetric adjustment

means the symmetric adjustment that may be applied to the standard equity capital charge in accordance with 3D.12.

UK Solvency II undertaking

means a UK Solvency II firm or Lloyd’s.

1A

General Requirements on the Use of Credit Assessments

1A.1

A firm may use an external credit assessment for the calculation of the SCR in accordance with the standard formula only where it has been issued by an external credit assessment institution or endorsed by an external credit assessment institution in accordance with Regulation (EC) No 1060/2009.

1A.2

A firm must nominate one or more external credit assessment institutions to be used for the calculation of the SCR according to the standard formula.

1A.3

A firm must use credit assessments consistently and must not use such assessments selectively.

1A.4

When using credit assessments, a firm must comply with all of the following requirements:

  1. (1) where a firm decides to use the credit assessments produced by a nominated external credit assessment institution for a certain class of items, it must use those credit assessments consistently for all items belonging to that class;
  2. (2) where a firm decides to use the credit assessments produced by a nominated external credit assessment institution, it must use them in a continuous and consistent way over time;
  3. (3) a firm must only use nominated external credit assessment institution credit assessments that take into account all amounts of principal and interest owed to it;
  4. (4) subject to 1C.1, where only one credit assessment is available from a nominated external credit assessment institution for a rated item, a firm must use that credit assessment to determine the capital requirements for that item;
  5. (5) where two credit assessments are available from nominated external credit assessment institutions and they correspond to different parameters for a rated item, a firm must use the assessment generating the higher capital requirement;
  6. (6) where more than two credit assessments are available from nominated external credit assessment institutions for a rated item, a firm must use the two assessments generating the two lowest capital requirements, provided that:
    1. (a) if the two lowest capital requirements are different, the firm must use the assessment generating the higher capital requirement of those two credit assessments; and
    2. (b) if the two lowest capital requirements are the same, the firm must use the assessment generating that capital requirement; and
  7. (7) where available, a firm must use both solicited and unsolicited credit assessments.

1A.5

Where an item is part of the larger or more complex exposures of a firm, the firm must produce its own internal credit assessment of the item and allocate it to a credit quality step, provided that where the firm’s own internal credit assessment generates a lower capital requirement than the one generated by the credit assessments available from nominated external credit assessment institutions, then the firm’s own internal credit assessment must not be taken into account for the purposes of this Part.

1A.6

For the purposes of 1A.5, the larger or more complex exposures of a firm must include securitisation positions as referred to in 3D21.8 and 3D21.9 and resecuritisation positions.

1B

Issuers And Issue Credit Assessment

1B.1

Where a credit assessment exists for a specific issuing program or facility to which the item constituting the exposure belongs, a firm must use that credit assessment.

1B.2

Where no directly applicable credit assessment exists for a certain item, but a credit assessment exists for a specific issuing program or facility to which the item constituting the exposure does not belong or a general credit assessment exists for the issuer, a firm must use that credit assessment in either of the following cases:

  1. (1) it produces the same or higher capital requirement than would otherwise be the case and the exposure in question ranks pari passu or junior in all respects to the specific issuing program or facility or to senior unsecured exposures of that issuer, as relevant; or
  2. (2) it produces the same or lower capital requirement than would otherwise be the case and the exposure in question ranks pari passu or senior in all respects to the specific issuing program or facility or to senior unsecured exposures of that issuer, as relevant.

In all other cases, a firm must treat the exposure as if there is no credit assessment by a nominated external credit assessment institution available for it.

1B.3

A firm must not use credit assessments for issuers within a corporate group as the credit assessment for another issuer within the same corporate group.

1C

Double Credit Rating For Securitisation Positions

1C.1

Notwithstanding 1A.4(4), where only one credit assessment is available from a nominated external credit assessment institution for a securitisation position, a firm must not use that credit assessment and the firm must derive the capital requirements for that item as if no credit assessment by a nominated external credit assessment institution is available.

2

Structure of the SCR Standard Formula

2.1

For a firm calculating its SCR on the basis of the standard formula, its SCR is the sum of the following items:

  1. (1) the basic SCR;
  2. (2) the capital requirement for operational risk, as set out in 5; and
  3. (3) the adjustment for the loss-absorbing capacity of technical provisions and deferred taxes, as set out in 6.

[Note: Art. 103 of the Solvency II Directive]

2.2

Notwithstanding 2.1, a firm with a ring-fenced fund (other than a ring-fenced fund in respect of which the reconciliation reserve has been reduced by the total amount of restricted own funds items in accordance with Own Funds 3L.2) or matching adjustment portfolio must make an adjustment to the calculation of its SCR following the method set out in 9.

2.3

  1. (1) A firm must calculate its SCR on the basis of each of the underlying assets of collective investment undertakings and other investments packaged as funds.
  2. (2) Subject to (6), a firm must also apply the look-through approach to the following:
    1. (a) indirect exposures to market risk other than collective investment undertakings and investments packaged as funds;
    2. (b) indirect exposures to underwriting risk; and
    3. (c) indirect exposures to counterparty risk.
  3. (3) Subject to 7.2, if a firm cannot apply the look-through approach to collective investment undertakings or investments packaged as funds, a firm may calculate its SCR on the basis of the target underlying asset allocation or, if the target underlying asset allocation is not available to the firm, on the basis of the last reported asset allocation, of the collective investment undertaking or fund, provided that, in either case:
    1. (a) the underlying assets are managed in accordance with that target allocation or last reported asset allocation, as applicable; and
    2. (b) exposures and risks are not expected to vary materially over a short period of time.
  4. (4) For the purposes of the calculation in (3), a firm may use data groupings provided that they:
    1. (a) enable all relevant sub-modules and scenarios of the standard formula to be calculated in a prudent manner; and
    2. (b) do not apply to more than 20% of the total value of the firm’s assets.
  5. (5) For the purposes of determining the percentage of assets where data groupings are used as referred to in (4)(b), a firm must not take into account underlying assets of the collective investment undertaking, or the investments packaged as funds, backing unit-linked liabilities or index-linked liabilities for which the market risk is borne by the policyholders.
  6. (6) (2) does not apply to investments in related undertakings, other than investments in respect of which all of the following requirements are met:
    1. (a) the main purpose of the related undertaking is to hold and manage assets on behalf of the participating undertaking;
    2. (b) the related undertaking supports the operations of the participating undertaking related to investment activities, following a specific and documented investment mandate; and
    3. (c) the related undertaking does not carry on any significant business other than investing for the benefit of the participating undertaking.

2A

Annexes

1

The Annexes referred to in 3A, 3C and 7 can be found here.

3

The Basic SCR

3.1

For the purposes of calculating its basic SCR, a firm must:

  1. (1) calculate the capital requirements for:
    1. (a) the non-life underwriting risk module;
    2. (b) the life underwriting risk module;
    3. (c) the health underwriting risk module;
    4. (d) the market risk module; and
    5. (e) the counterparty default risk module;
  2. (2) aggregate the capital requirements referred to in (1) in accordance with the following formula:

BasicSCR = \[\sqrt{\Sigma _{i,j}Corri_{i,j}\cdot SCR_{i}\cdot SCR_{j}}+SCR_{intangibles}\]

where:

    1. (a) ‘SCRi’ and ‘SCRj’ denote the non-life underwriting risk module, the life underwriting risk module, the health underwriting risk module, the market risk module and the counterparty default risk module;
    2. (b) ‘i,j’ means that the sum of the different terms should cover all possible combinations of ‘i’ and ‘j’;
    3. (c) the factor ‘Corr i,j’ denotes the item set out in row ‘i’ and column ‘j’ of the correlation matrix in (d); and
    4. (d)

; and

  1. (3) include a risk module for intangible asset risk, and a firm must calculate this in accordance with the following formula:

BasicSCR = \[\sqrt{\Sigma _{i,j}Corri_{i,j}\cdot SCR_{i}\cdot SCR_{j}}+SCR_{intangibles}\]

where:

  1. (a) in the summation, Corri,j, SCRi and SCRj are specified as set out in (2); and
  2. (b) SCRintangibles denotes the capital requirement for intangible asset risk referred to in 3F1.

[Note: Art. 104(1) and Annex IV point (1) of the Solvency II Directive]

3.2

For the purposes of calculating the capital requirements in 3.1(1) for non-life underwriting risk, life underwriting risk and health underwriting risk, a firm must allocate its insurance and reinsurance operations to the underwriting risk that best reflects the technical nature of the underlying risks.

[Note: Art. 104(2) of the Solvency II Directive]

3.2A

For the purposes of calculating the capital requirements in 3.1(1) for non-life underwriting risk, life underwriting risk and health underwriting risk, a firm must apply:

  1. (1) the non-life underwriting risk module to non-life insurance and reinsurance obligations other than health insurance obligations and health reinsurance obligations;
  2. (2) the life underwriting risk module to life insurance and reinsurance obligations other than health insurance obligations and health reinsurance obligations; and
  3. (3) the health underwriting risk module to health insurance obligations and health reinsurance obligations.

3.3

Each of the risk modules referred to in 3.1(1) must be calibrated using a Value-at-Risk measure, with a 99.5% confidence level over a one-year period.

3.3A

  1. (1) Where the calculation of a module or sub-module of the basic SCR is based on the impact of a scenario on the basic own funds of a firm, the firm must make all of the following assumptions in that calculation:
    1. (a) the scenario does not change the amount of the risk margin included in technical provisions;
    2. (b) the scenario does not change the value of deferred tax assets and liabilities;
    3. (c) the scenario does not change the value of future discretionary benefits included in technical provisions; and
    4. (d) no management actions are taken by the firm during the scenario.
  2. (2) In calculating technical provisions arising as a result of determining the impact of a scenario on its basic own funds as referred to in (1), a firm must not change the value of future discretionary benefits, and must take account of all of the following:
    1. (a) without prejudice to (1)(d), future management actions following the scenario, provided they comply with Technical Provisions – Further Requirements 8; and
    2. (b) any material adverse impact of the scenario or the future management actions referred to in (a) on the likelihood that policyholders will exercise options relating to contracts of insurance.
  3. (3) A firm may use simplified methods to calculate the technical provisions arising as a result of determining the impact of a scenario as referred to in (1), provided that the simplified method does not lead to a misstatement of the SCR that could influence the decision-making or the judgement of the user of the information relating to the SCR, unless the simplified calculation produces an SCR which exceeds the SCR that results from the calculation according to the standard formula.
  4. (4) In calculating the assets and liabilities arising as a result of determining the impact of a scenario as referred to in (1), a firm must take account of the impact of the scenario on the value of any relevant risk mitigation instruments held by the firm which comply with 3G2, 3G3 and 3G5 to 3G9.
  5. (5) Where the scenario would result in an increase in its basic own funds, a firm must base the calculation of the module or sub-module on the assumption that the scenario has no impact on its basic own funds.

3.4

Where appropriate, diversification effects must be taken into account in the design of each risk module.

[Note: Art. 104(4) of the Solvency II Directive]

3.5

For the purposes of the basic SCR, a firm must calculate the capital requirement for the non-life underwriting risk module so that it:

  1. (1) reflects the risk arising from its non-life insurance obligations, in relation to the perils covered and the processes used in the conduct of business; and
  2. (2) takes account of the uncertainty in its results related to existing insurance and reinsurance obligations, as well as to new business expected to be written within the following 12 months.

[Note: Art. 105(2) of the Solvency II Directive]

3.6

For the purposes of 3.1(1)(a), the capital requirement for the non-life underwriting risk module is a combination of the capital requirements for the following sub-modules:

  1. (1) the non-life premium and reserve risk sub-module covering non-life premium and reserve risk;
  2. (2) the non-life catastrophe risk sub-module covering non-life catastrophe risk; and
  3. (3) the non-life lapse risk sub-module covering non-life lapse risk.

[Note: Art. 105(2) of the Solvency II Directive]

3.6A

  1. (1) A firm must calculate the capital requirement for non-life underwriting risk in accordance with the following formula:

\[{SCR}_{non-life}=\sqrt{\Sigma_{i,j}{CorrNL}_{\left(i,j\right)}\cdot{SCR}_i\cdot{SCR}_j}\]

where:

  1. (a) the sum covers all possible combinations (i, j) of the sub-modules set out in 3.6;
  2. (b) CorrNL(i,j) denotes the correlation coefficient for non-life underwriting risk for sub-modules i and j; and
  3. (c) SCRi and SCRj denote the capital requirements for risk sub-modules i and j, respectively.

(2) The correlation coefficient CorrNL(i,j) referred to in (1) denotes the item set out in row i and column j of the following correlation matrix:

j i Non-life premium and reserve Non-life catastrophe Non-life lapse
Non-life premium and reserve 1 0.25 0
Non-life catastrophe 0.25 0
Non-life lapse
0 0 1

3.7

For the purposes of 3.1(1)(b) a firm must calculate the capital requirement for the life underwriting risk module so as to reflect the risk arising from its life insurance obligations, in relation to the perils covered and the processes used in the conduct of business.

[Note: Art. 105(3) of the Solvency II Directive]

3.8

The life underwriting risk module must be calculated as:

  1. (1) a combination of the capital requirements for the following sub-modules:
    1. (a) mortality risk;
    2. (b) longevity risk;
    3. (c) disability-morbidity risk;
    4. (d) life expense risk;
    5. (e) revision risk;
    6. (f) lapse risk; and
    7. (g) life catastrophe risk;
  2. (2) aggregated in accordance with the following formula:



where: ‘SCRi’ and ‘SCRj’ denote the mortality risk sub-module, the longevity risk sub-module, the disability-morbidity risk sub-module, the life expense risk sub-module, the revision risk sub-module, the lapse risk sub-module and the life catastrophe risk sub-module;

‘i,j’ means that the sum of the different terms should cover all possible combinations of ‘i’ and ‘j’; and

Corri,j’ denotes the correlation coefficient for life underwriting risk for sub-modules i and j.

  1. (3) The correlation coefficient Corri,j referred to in (2) must be equal to the item set out in row i and column j of the following correlation matrix:
 j i  Mortality Longevity Disability Life expense Revision Lapse Life catastrophe
Mortality 1 -0.25 0.25 0.25 0 0 0.25
Longevity
-0.25 1 0 0.25 0.25 0.25 0
Disability 0.25 0 1 0.5 0 0 0.25
Life expense
0.25 0.25 0.5 1 0.5 0.5 0.25
Revision
0 0.25 0 0.5 1 0 0
Lapse 0 0.25 0 0.5 0 1 0.25
Life catastrophe
0.25 0 0.25 0.25 0 0.25 1

 

[Note: Art. 105(3) and Annex IV point (3) Solvency II Directive]

3.9

For the purposes of 3.8:

  1. (1) the mortality risk sub-module covers mortality risk;
  2. (2) the longevity risk sub-module covers longevity risk;
  3. (3) the disability-morbidity risk sub-module covers disability-morbidity risk;
  4. (4) the life expense risk sub-module covers life expense risk;
  5. (5) the revision risk sub-module covers revision risk;
  6. (6) the lapse risk sub-module covers lapse risk; and
  7. (7) the life-catastrophe risk sub-module covers life-catastrophe risk.

[Note: Art. 105(3) of the Solvency II Directive)]

3.10

For the purposes of 3.1(1)(c):

  1. (1) a firm must calculate the capital requirement for the health underwriting risk module to reflect the risk arising from its underwriting of health insurance obligations, whether it is pursued on a similar technical basis to that of life insurance or not, following from both the perils covered and the processes used in the conduct of business; and
  2. (2) the health underwriting risk module must cover at least health underwriting risk.
    1. (a) [deleted]
    2. (b) [deleted]
    3. (c) [deleted]

[Note: Art. 105(4) of the Solvency II Directive]

3.10A

  1. (1) The health underwriting risk module must consist of all of the following sub-modules:
    1. (a) the NSLT health insurance underwriting risk sub-module;
    2. (b) the SLT health insurance underwriting risk sub-module; and
    3. (c) the health catastrophe risk sub-module.
  2. (2) A firm must calculate the capital requirement for health underwriting risk in accordance with the following formula:

\[{SCR}_{health}=\sqrt{\sum_{i,j}{{CorrH}_{\left(i,j\right)}\cdot{SCR}_i\cdot{SCR}_j}}\]

where:

  1. (a) the sum covers all possible combinations (i , j) of the sub-modules set out in (1);
  2. (b) CorrH(i, j) denotes the correlation coefficient for health underwriting risk for sub-modules i and j; and
  3. (c) SCRi and SCRj denote the capital requirements for risk sub-modules i and j, respectively.
  1. (3) The correlation coefficient CorrH(i, j) referred to in (2) denotes the item set out in row i and column j of the following correlation matrix:
j i NSLT health underwriting SLT health underwriting Health catastrophe
NSLT health underwriting 1 0.5 0.25
SLT health underwriting
0.5 1 0.25
Health catastrophe 0.25 0.25 1

3.11

For the purposes of 3.1(1)(d):

  1. (1) a firm must calculate the capital requirement for the market risk module so that it:
    1. (a) reflects the risk arising from the level or volatility of market prices of financial instruments which have an impact upon the value of the assets and liabilities of the firm;
    2. (b) properly reflects the structural mismatch between assets and liabilities, in particular with respect to the duration of assets and liabilities; and
  2. (2) the capital requirement for the market risk module is a combination of the capital requirements for at least the following sub-modules:
    1. (a) an interest-rate risk sub-module covering interest-rate risk;
    2. (b) an equity risk sub-module covering equity risk;
    3. (c) a property risk sub-module covering property risk;
    4. (d) a spread risk sub-module covering spread risk;
    5. (e) a currency risk sub-module covering currency risk; and
    6. (f) a market risk concentrations sub-module covering market risk concentrations.

[Note: Art. 105(5) of the Solvency II Directive]

3.11A

  1. (1) A firm must calculate the capital requirement for market risk in accordance with the following formula:

\[{SCR}_{market}=\sqrt{\Sigma_{i,j}{Corr}_{\left(i,j\right)}\cdot{SCR}_i\cdot{SCR}_j}\]

where:

  1. (a) the sum covers all possible combinations i, j of sub-modules set out in 3.11(2);
  2. (b) Corr(i,j) denotes the correlation coefficient for market risk for sub-modules i and j; and
  3. (c) SCRi and SCRj denote the capital requirements for risk sub-modules i and j, respectively. 

(2) The correlation coefficient Corr( i,j) referred to in (1) must be equal to the item set out in row i and column j of the following correlation matrix:

j i Interest rate Equity Property Spread Concentration Currency
Interest rate 1 A A A 0 0.25
Equity A 1 0.75 0.75 0 0.25
Property A 0.75 1 0.5 0 0.25
Spread A 0.75 0.5 1 0 0.25
Concentration 0 0 0 0 1 0
Currency 0.25 0.25 0.25 0.25 0 1
  1. (3) The coefficient A in the table in (2) must be equal to 0 where the capital requirement for interest-rate risk set out in 3D4 is the capital requirement referred to in 3D4.1(1). In all other cases, the coefficient A must be equal to 0.5.

3.12

For the purposes of 3.1(1)(e), the counterparty default risk module:

  1. (1) must reflect possible losses due to unexpected default, or deterioration in the credit standing, of the counterparties and debtors of the firm over the following 12 months;
  2. (2) must cover risk-mitigating contracts, such as reinsurance arrangements, securitisations and derivatives, and receivables from intermediaries, as well as any other credit exposures which are not covered in the spread risk sub-module;
  3. (3) must take appropriate account of collateral or other security held by, or for the account of, the firm and the associated risks;
  4. (4) for each counterparty, must take account of the overall counterparty risk exposure of the firm to that counterparty, irrespective of the legal form of the counterparty’s contractual obligations to the firm.

[Note: Art. 105(6) of the Solvency II Directive]

3.13

A firm must calculate the capital requirement for counterparty default risk in accordance with the following formula:

\[{SCR}_{def}=\sqrt{{SCR}_{\left(def,1\right)}^2+1.5\cdot{SCR}_{\left(def,1\right)}\cdot{SCR}_{\left(def,2\right)}+{SCR}_{\left(def,2\right)}^2}\]

where:

  1. (a) SCR(def,1) denotes the capital requirement for counterparty default risk on type 1 exposures as set out in 3.14; and
  2. (b) SCR(def,2) denotes the capital requirement for counterparty default risk on type 2 exposures as set out in 3.15.

3.14

A firm must treat exposures in relation to the following as type 1 exposures:

  1. (1) risk-mitigation contracts including reinsurance arrangements, special purpose vehicles and insurance securitisations;
  2. (2) cash at bank as referred to in Schedule 3 to the Large and Medium-Sized Companies and Groups (Accounts and Reports) Regulations 2008/410 as amended from time to time;
  3. (3) deposits with ceding undertakings where the number of single name exposures does not exceed 15;
  4. (4) commitments received by the firm which have been called up but are unpaid, where the number of single name exposures does not exceed 15, including called up but unpaid ordinary share capital and preference shares, called up but unpaid legally binding commitments to subscribe and pay for subordinated liabilities, called up but unpaid initial funds, members’ contributions or the equivalent basic own fund item for mutual and mutual-type undertakings, called up but unpaid guarantees, called up but unpaid letters of credit, called up but unpaid claims which mutual or mutual-type associations may have against their members by way of a call for supplementary contributions;
  5. (5) legally binding commitments which the firm has provided or arranged and which may create payment obligations depending on the credit standing or default of a counterparty including guarantees, letters of credit, and letters of comfort; and
  6. (6) derivatives other than credit derivatives covered in the spread risk sub-module.

3.15

A firm must treat all credit exposures which are not covered in the spread risk sub-module and which are not type 1 exposures as type 2 exposures, including the following:

  1. (1) receivables from intermediaries;
  2. (2) policyholder debtors;
  3. (3) mortgage loans which meet the requirements in 3E3.2 to 3E3.13;
  4. (4) deposits with ceding undertakings where the number of single name exposures exceeds 15; and
  5. (5) commitments received by the firm which have been called up but are unpaid as referred to in 3.14(4), where the number of single name exposures exceeds 15.

3.16

A firm may, at its discretion, consider all exposures referred to in 3.15(4) and (5) as type 1 exposures, regardless of the number of single name exposures.

3.17

Where a letter of credit, a guarantee or an equivalent risk-mitigation technique has been provided to fully secure an exposure and this risk mitigation technique complies with the requirements of 3G2, 3G3 and 3G5 to 3G9, then the firm may treat the provider of that letter of credit, guarantee or equivalent risk mitigation technique as the counterparty on the secured exposure for the purposes of assessing the number of single name exposures.

3.18

A firm must not include the following credit risks in the counterparty default risk module:

  1. (1) the credit risk transferred by a credit derivative;
  2. (2) the credit risk on debt issuance by special purpose vehicles;
  3. (3) the underwriting risk of credit and suretyship insurance or reinsurance as referred to in lines of business 9, 21 and 28;
  4. (4) the credit risk on mortgage loans which do not meet the requirements in 3E3.2 to 3E3.9; and
  5. (5) the credit risk on assets posted as collateral to a CCP or a clearing member that are bankruptcy remote.

3.19

A firm must treat investment guarantees on contracts of insurance provided to policyholders by a third party and for which the firm would be liable should the third party default as derivatives in the counterparty default risk module.

3A

Non-life Underwriting Risk Module

3A1 Non-Life Premium And Reserve Risk Sub-Module

1.

A firm must calculate the capital requirement for non-life premium and reserve risk in accordance with the following formula:

\[{SCR}_{nl\ prem\ res}=3\cdot\sigma_{nl}\cdot V_{nl}\]

where:

  1. (1) σnl denotes the standard deviation for non-life premium and reserve risk determined in accordance with 3A4; and
  2. (2) Vnl denotes the volume measure for non-life premium and reserve risk determined in accordance with 3A2.

3A2 Volume Measure For Non-Life Premium And Reserve Risk

1.

A firm must calculate the volume measure for non-life premium and reserve risk as equal to the sum of the volume measures for premium and reserve risk of the segments set out in 3A3.

2.

For all segments set out in 3A3 a firm must calculate the volume measure of a particular segment s in accordance with the following formula:

\[V_s=(V_{(prem,s)}+V_{(res,s)} )\cdot(0.75+0.25\cdot {DIV}_s)\]

where:

  1. (1) V(prem,s) denotes the volume measure for premium risk of segment s;
  2. (2) V(res,s) denotes the volume measure for reserve risk of segment s; and
  3. (3) DIVs denotes the factor for geographical diversification of segment s.

3.

For all segments set out in 3A3, a firm must calculate the volume measure for premium risk of a particular segment s in accordance with the following formula:

\[V_{(prem,s)}=max[P_s; P_{(last,s)} ]+{FP}_{(existing,s)}+{FP}_{(future,s)}\]

where:

  1. (1) Ps denotes an estimate of the premiums to be earned by the firm for segment s during the following 12 months;
  2. (2) P(last, s) denotes the premiums earned by the firm for segment s during the last 12 months;
  3. (3) FP(existing, s) denotes the expected present value of premiums to be earned by the firm for segment s after the following 12 months for existing contracts of insurance; and
  4. (4) FP(future, s) denotes the following amount with respect to contracts of insurance where the initial recognition date falls in the following 12 months:
    1. (a) for all such contracts of insurance with an initial term of one year or less, the expected present value of premiums to be earned by the firm for segment s, but excluding the premiums to be earned during the 12 months after the initial recognition date; and
    2. (b) for all such contracts of insurance with an initial term of more than one year, the amount equal to 30% of the expected present value of premiums to be earned by the firm for segment s after the following 12 months.

4.

For all segments set out in 3A3, a firm may, as an alternative to the calculation set out in 3A2.3, choose to calculate the volume measure for premium risk of a particular segment s in accordance with the following formula:

\[V_{(prem,s)}=P_s+{FP}_{(existing,s)}+{FP}_{(future,s)}\]

provided that all of the following requirements are met:

  1. (1) the governing body of the firm has decided that its earned premiums for segment s during the following 12 months will not exceed Ps;
  2. (2) the firm has established effective control mechanisms to ensure that the limits on earned premiums referred to in (1) will be met; and
  3. (3) the firm has informed the PRA in writing about the decision referred to in (1) and the reasons for it.

For the purposes of this calculation, the terms Ps, FP(existing, s) and FP(future, s) must be calculated in accordance with 3A2.3(1), (3) and (4).

5.

For the purposes of the calculations set out in 3A2.3 and 3A2.4, premiums must be net, after deduction of premiums for reinsurance contracts, except for premiums for the following types of reinsurance contracts which must not be deducted:

  1. (1) premiums in relation to non-insurance events or settled insurance claims that are not accounted for in the cash-flows referred to in Technical Provisions – Further Requirements 23.3; and
  2. (2) premiums for reinsurance contracts that do not comply with 3G2, 3G3, 3G5 and 3G7.

6.

For all segments set out in 3A3, a firm must calculate the volume measure for reserve risk of a particular segment as equal to the best estimate of the provisions for claims outstanding for the segment, after deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, provided that:

  1. (1) the reinsurance contracts or special purpose vehicles comply with 3G23G33G5 and 3G7; and
  2. (2) the volume measure must not be a negative amount.

7.

For all segments set out in 3A3, the default factor for geographical diversification of a particular segment must be either 1 or calculated in accordance with 3A5.

3A3 Segmentation Of Non-Life Insurance And Reinsurance Obligations And Standard Deviations For The Non-Life Premium And Reserve Risk Sub-Module

  Segment Lines of business that the segment consists of Standard deviation for gross premium risk of the segment Standard deviation for reserve risk of the segment
1 Motor vehicle liability insurance and proportional reinsurance 4 and 16 10% 9%
2 Other motor insurance and proportional reinsurance
5 and 17
8% 8%
3 Marine, aviation and transport insurance and proportional reinsurance
6 and 18 15% 11%
4 Fire and other damage to property insurance and proportional reinsurance
7 and 19
8% 10%
General liability insurance and proportional reinsurance
8 and 20
 14% 11%
6 Credit and suretyship insurance and proportional reinsurance
9 and 21
19% 17.2%
7 Legal expenses insurance and proportional reinsurance
10 and 22
8.3% 5.5%
8 Assistance and its proportional reinsurance
11 and 23 6.4% 22%
9 Miscellaneous financial loss insurance and proportional reinsurance
12 and 24 13% 20%
10 Non-proportional casualty reinsurance
26 17% 20%
11 Non-proportional marine, aviation and transport reinsurance
27 17% 20%
12 Non-proportional property reinsurance
28 17% 20%

3A4 Standard Deviation For Non-Life Premium And Reserve Risk

1

A firm must calculate the standard deviation for non-life premium and reserve risk in accordance with the following formula:

\[\sigma_{nl}=\frac{1}{V_{nl}} \cdot\sqrt{\sum_{s,t} CorrS_{(s,t)} \cdot \sigma_s \cdot V_s \cdot \sigma_t \cdot V_t }\]

where:

  1. (1) Vnl denotes the volume measure for non-life premium and reserve risk;
  2. (2) the sum covers all possible combinations (s, t) of the segments set out in 3A3;
  3. (3) CorrS(s, t) denotes the correlation coefficient for non-life premium and reserve risk for segment s and segment t set out in Annex IV;
  4. (4) σs and σt denote standard deviations for non-life premium and reserve risk of segments s and t respectively; and
  5. (5) Vs and Vt denote volume measures for premium and reserve risk of segments s and t, referred to in 3A2, respectively.

2.

For all segments set out in 3A3, a firm must calculate the standard deviation for non-life premium and reserve risk of a particular segment s in accordance with the following formula:

\[\sigma_s=\frac{\sqrt{{\sigma^2}_{\left(prem,s\right)}\cdot{V^2}_{\left(prem,s\right)}+\sigma_{\left(prem,s\right)}\cdot V_{\left(prem,s\right)}\cdot\sigma_{\left(res,s\right)}\cdot V_{\left(res,s\right)}+{\sigma^2}_{\left(res,s\right)}\cdot{V^2}_{\left(res,s\right)}}}{V_{\left(prem,s\right)}+V_{\left(res,s\right)}}\]

where:

  1. (1) σ(prem, s) denotes the standard deviation for non-life premium risk of segment s determined in accordance with 3A4.3;
  2. (2) σ(res, s) denotes the standard deviation for non-life reserve risk of segment s as set out in 3A3;
  3. (3) V(prem, s) denotes the volume measure for premium risk of segment s referred to in 3A2; and
  4. (4) V(res, s) denotes the volume measure for reserve risk of segment s referred to in 3A2.

3.

For all segments set out in 3A3, a firm must calculate the standard deviation for non-life premium risk of a particular segment as equal to the product of the standard deviation for non-life gross premium risk of the segment set out in 3A3 and the adjustment factor for non-proportional reinsurance.

4.

For segments 1, 4 and 5 set out in 3A3 the adjustment factor for non-proportional reinsurance must be equal to 80%. For all other segments set out in 3A3 the adjustment factor for non-proportional reinsurance must be equal to 100%.

3A5 Factor For Geographical Diversification Of Premium And Reserve Risk

1.

Subject to 3A5.5, 3A5.6 and 3A5.7, for all segments set out in 3A3 and 3C4, a firm must calculate the factor for geographical diversification of a particular segment s referred to in 3A2 and 3C3 in accordance with the following formula:

\[{DIV}_s=\frac{\sum_{r}{(V_{(prem,r,s)}+V_{res,r,s})}^2}{\left(\sum_{r}\left(V_{\left(prem,r,s\right)}+V_{res,r,s}\right)\right)^2}\]

where:

  1. (1) each of the sums cover all the geographical regions set out in 3A5.8;
  2. (2) V(prem, r, s) denotes the volume measure for premium risk of the segment s and the region r; and
  3. (3) V(res, r, s) denotes volume measure for reserve risk of the segment s and the region r.

2.

For all segments set out in 3A3 and 3C4 and all geographical regions set out in 3A5.8, a firm must calculate the volume measure for premium risk of a particular segment s and a particular region r in the same way as the volume measure for non-life or NSLT health premium risk of the segment s as referred to in 3A2 and 3C3, but taking into account only insurance and reinsurance obligations where the underlying risk is situated in the region r.

3.

For all segments set out in 3A3 and 3C4 and all geographical regions set out in 3A5.8 a firm must calculate the volume measure for reserve risk of a particular segment s and a particular region r in the same way as the volume measure for non-life or NSLT health reserve risk of the segment s as referred to in 3A2 and 3C3, but taking into account only insurance and reinsurance obligations where the underlying risk is situated in the region r.

4.

For the purpose of the calculations set out in 3A5.2 and 3A5.3, the following criteria apply:

  1. (1) In the case of non-life insurance, the region in which a risk is situated is,
    1. (a) if the insurance relates to a building or to a building and its contents (so far as the contents are covered by the same policy), to the region in which the building is situated;
    2. (b) if the insurance relates to a vehicle of any type, to the region of registration;
    3. (c) in the case of policies of a duration of four months or less covering travel or holiday risks (whatever the class concerned), to the region in which the policyholder took out the policy; or
    4. (d) in a case not covered by (a) to (c):
      1. (i) if the policyholder is an individual, to the region in which the individual has their habitual residence at the date when the contract of insurance is entered into; and
      2. (ii) otherwise, to the region in which the establishment of the policyholder to which the policy relates is situated and that date; and
  2. (2) In the case of life insurance, the region of the commitment, in relation to a commitment entered into at any date, is
    1. (a) if the policyholder is an individual, the region in which the individual had their habitual residence at that date; or
    2. (b) if the policyholder is not an individual, the region in which the establishment of the policyholder to which the commitment relates was situated at that date;
    3. where for these purposes ‘commitment’ means a commitment represented by contracts of insurance of a prescribed class.

5.

Notwithstanding 3A5.1, the factor for geographical diversification must be equal to 1 for segments 6, 10, 11 and 12 set out in 3A3 and for segment 4 set out in 3C4.

6

Notwithstanding 3A5.1, the factor for geographical diversification for a segment set out in 3A3 must be equal to 1 if a firm uses an undertaking specific parameter for the standard deviation for non-life premium risk or non-life reserve risk of the segment to calculate the non-life premium and reserve risk sub-module.

7.

Notwithstanding 3A5.1, the factor for geographical diversification for a segment set out in 3C4 must be equal to 1 if a firm uses an undertaking specific parameter for the standard deviation for NSLT health premium risk or NSLT health reserve risk of the segment to calculate the NSLT health premium and reserve risk sub-module.

8.

Regions for the calculation of the factor for geographical diversification.

  Region Territories that the region consists of
Northern Europe Denmark (except Greenland), Estonia, Finland, Guernsey, Iceland, Ireland, Isle of Man, Jersey, Latvia, Lithuania, Norway, Sweden, United Kingdom (except Anguilla, Bermuda, British Virgin Islands, Cayman Islands, Falkland Islands, Gibraltar, Montserrat, Pitcairn Islands, Saint Helena, Turks and Caicos Islands)
2 Western Europe Austria, Belgium, France (except French Guiana, French Polynesia, Guadeloupe, Martinique, Mayotte, New Caledonia, Réunion, Saint Barthélemy, Saint Martin, Saint Pierre and Miquelon, Wallis and Futuna), Germany, Liechtenstein, Luxembourg, Monaco, Netherlands (except Aruba, Bonaire, Curaçao, Saba, Sint Eustatius, Sint Maarten), Switzerland
3 Eastern Europe
Belarus, Bulgaria, Czech Republic, Hungary, Moldova, Poland, Romania, Russia, Slovakia, Ukraine
4 Southern Europe
Albania, Andorra, Bosnia and Herzegovina, Croatia, Cyprus, the former Yugoslav Republic of Macedonia, Gibraltar, Greece, Italy, Malta, Montenegro, Portugal, San Marino, Serbia, Slovenia, Spain, Vatican City State
Central and Western Asia
Armenia, Azerbaijan, Bahrain, Georgia, Iraq, Israel, Jordan, Kazakhstan, Kuwait, Kyrgyzstan, Lebanon, Oman, Qatar, Saudi Arabia, Syria, Tajikistan, Turkey, Turkmenistan, United Arab Emirates, Uzbekistan, Yemen
6 Eastern Asia
China, Japan, Mongolia, North Korea, South Korea, Taiwan
7 South and South-Eastern Asia
Afghanistan, Bangladesh, Bhutan, Brunei, Burma/Myanmar, Cambodia, India, Indonesia, Iran, Laos, Malaysia, Maldives, Nepal, Pakistan, Philippines, Singapore, Sri Lanka, Thailand, East Timor, Vietnam
8 Oceania
American Samoa, Australia, Cook Islands, Fiji, French Polynesia, Guam, Kiribati, Marshall Islands, Micronesia, Nauru, New Caledonia, New Zealand, Niue, Northern Mariana Islands, Palau, Papua New Guinea, Pitcairn Islands, Samoa, Solomon Islands, Tonga, Tuvalu, Vanuatu, Wallis and Futuna
9 Northern Africa
Algeria, Benin, Burkina Faso, Cameroon, Cape Verde, Central African Republic, Chad, Côte d'Ivoire, Egypt, Gambia, Ghana, Guinea, Guinea-Bissau, Liberia, Libya, Mali, Mauritania, Morocco, Niger, Nigeria, Saint Helena, Senegal, Sierra Leone, South Sudan, Sudan, Togo, Tunisia
10 Southern Africa
Angola, Botswana, Burundi, Comoros, Democratic Republic of the Congo, Djibouti, Equatorial Guinea, Eritrea, Ethiopia, Gabon, Kenya, Lesotho, Madagascar, Malawi, Mauritius, Mayotte, Mozambique, Namibia, Congo, Réunion, Rwanda, São Tomé and Príncipe, Seychelles, Somalia, South Africa, Swaziland, Uganda, Tanzania, Zambia, Zimbabwe
11 Northern America excluding the United States of America
Bermuda, Canada, Greenland, Saint Pierre and Miquelon
12 Caribbean and Central America
Anguilla, Antigua & Barbuda, Aruba, Bahamas, Barbados, Belize, Bonaire, British Virgin Islands, Cayman Islands, Costa Rica, Cuba, Curaçao, Dominica, Dominican Republic, El Salvador, Grenada, Guadeloupe, Guatemala, Haiti, Honduras, Jamaica, Martinique, Mexico, Montserrat, Nicaragua, Panama, Puerto Rico, Saint Barthélemy, Saba, Saint Kitts and Nevis, Saint Lucia, Saint Martin, Saint Vincent and the Grenadines, Sint Eustatius, Sint Maarten, Trinidad and Tobago, Turks and Caicos Islands, US Virgin Islands
13  Eastern South America
Brazil, Falkland Islands, French Guiana, Guyana, Paraguay, Suriname, Uruguay
14 Northern, southern and western South America
Argentina, Bolivia, Chile, Colombia, Ecuador, Peru, Venezuela
15 North-east United States of America
Connecticut, Delaware, District of Columbia, Maine, Maryland, Massachusetts, New Hampshire, New Jersey, New York, Pennsylvania, Rhode Island, Vermont
16 South-east United States of America Alabama, Arkansas, Florida, Georgia (US), Kentucky, Louisiana, Mississippi, North Carolina, South Carolina, Tennessee, Virginia, West Virginia
17 Mid-west United States of America
Illinois, Indiana, Iowa, Kansas, Michigan, Minnesota, Missouri, Nebraska, North Dakota, Ohio, Oklahoma, South Dakota, Wisconsin
18 Western United States of America
Alaska, Arizona, California, Colorado, Hawaii, Idaho, Montana, Nevada, New Mexico, Oregon, Texas, Utah, Washington, Wyoming

3A6 Non-Life Lapse Risk Sub-Module

1.

A firm must calculate the capital requirement for the non-life lapse risk sub-module as equal to the loss in its basic own funds resulting from a combination of the following instantaneous events:

  1. (1) the discontinuance of 40% of the insurance policies for which discontinuance would result in an increase in technical provisions without the risk margin; and
  2. (2) where reinsurance contracts cover contracts of insurance or reinsurance contracts that will be written in the future, the decrease of 40% of the number of those future contracts of insurance or reinsurance contracts used in the calculation of technical provisions.

2.

A firm must apply the events referred to in 3A6.1 uniformly to all relevant contracts of insurance and reinsurance contracts and, in respect of any such reinsurance contracts, the firm must apply the event referred to in 3A6.1(1) to the underlying contracts of insurance.

3.

For the purposes of determining the loss in its basic own funds under the event referred to in 3A6.1(1), the firm must base the calculation on the type of discontinuance that most negatively affects its basic own funds on a per policy basis.

3A7 Non-Life Catastrophe Risk Sub-Module

1.

The non-life catastrophe risk sub-module must consist of all of the following sub-modules:

  1. (1) the natural catastrophe risk sub-module;
  2. (2) the sub-module for catastrophe risk of non-proportional property reinsurance;
  3. (3) the man-made catastrophe risk sub-module; and
  4. (4) the sub-module for other non-life catastrophe risk.

2.

A firm must calculate the capital requirement for the non-life catastrophe risk sub-module in accordance with the following formula:

\[{SCR}_{nlCAT}=\sqrt{\left({SCR}_{natCAT}+{SCR}_{npproperty}\right)^2+{{SCR}^2}_{mmCAT}+{{SCR}^2}_{CATother}}\]

where:

  1. (1) SCRnatCAT denotes the capital requirement for natural catastrophe risk;
  2. (2) SCRnpproperty denotes the capital requirement for the catastrophe risk of non-proportional property reinsurance;
  3. (3) SCRmmCAT denotes the capital requirement for man-made catastrophe risk; and
  4. (4) SCRCATother denotes the capital requirement for other non-life catastrophe risk.

3A8 Natural Catastrophe Risk Sub-Module

1.

The natural catastrophe risk sub-module must consist of all of the following sub-modules:

  1. (1) the windstorm risk sub-module;
  2. (2) the earthquake risk sub-module;
  3. (3) the flood risk sub-module;
  4. (4) the hail risk sub-module; and
  5. (5) the subsidence risk sub-module.

2.

A firm must calculate the capital requirement for natural catastrophe risk in accordance with the following formula:

\[{SCR}_{natCAT}=\sqrt{\sum_{i}{SCR}_i^2}\]

where:

  1. (1) the sum includes all possible combinations of the sub-modules i set out in 3A8.1; and
  2. (2) SCRi denotes the capital requirement for sub-module i.

3A9 Windstorm Risk Sub-Module

1.

A firm must calculate the capital requirement for windstorm risk in accordance with the following formula:

\[{SCR}_{windstorm}=\sqrt{\left(\sum_{(r,s)}{CorrWS}_{(r,s)}\cdot{SCR}_{windstorm,r}\cdot{SCR}_{windstorm,\ s}\right)+{SCR}_{(windstorm,other)}^2}\]

where:
  1. (1) the sum includes all possible combinations (r, s) of the regions set out in Annex V;
  2. (2) CorrWS(r, s) denotes the correlation coefficient for windstorm risk for region r and region s as set out in Annex V;
  3. (3) SCR(windstorm, r) and SCR(windstorm, s) denote the capital requirements for windstorm risk in region r and s respectively; and
  4. (4) SCR(windstorm, other) denotes the capital requirement for windstorm risk in regions other than those set out in 3A10.

2.

For all regions set out in Annex V, a firm must calculate the capital requirement for windstorm risk in a particular region r as the higher of the following two capital requirements:

  1. (1) the capital requirement for windstorm risk in region r according to scenario A as set out in 3A9.3; and
  2. (2) the capital requirement for windstorm risk in region r according to scenario B as set out in 3A9.4.

3.

For all regions set out in Annex V, a firm must calculate the capital requirement for windstorm risk in a particular region r according to scenario A as equal to the loss in its basic own funds that would result from the following sequence of events:

  1. (1) an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 80% of the specified windstorm loss in region r; and
  2. (2) a loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 40% of the specified windstorm loss in region r.

4.

For all regions set out in Annex V, a firm must calculate the capital requirement for windstorm risk in a particular region r according to scenario B as equal to the loss in its basic own funds that would result from the following sequence of events:

  1. (1) an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 100% of the specified windstorm loss in region r; and
  2. (2) a loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 20% of the specified windstorm loss in region r.

5.

For all regions set out in Annex V, a firm must calculate the specified windstorm loss in a particular region r in accordance with the following formula:

\[L_{\left(windstorm,r\right)}=\sqrt{\sum{_{(i,j)}}{{Corr}_{\left(windstorm,r,i,j\right)}\cdot{WSI}_{\left(windstorm,\ r,i\right)}\cdot{WSI}_{\left(windstorm,r,j\right)}}}\]

where:

  1. (1) the sum includes all possible combinations of risk zones (i, j) of region r set out in Annex IX;
  2. (2) Corr(windstorm, r, i, j) denotes the correlation coefficient for windstorm risk in risk zones i and j of region r set out in Annex XXII; and
  3. (3) WSI(windstorm, r, i) and WSI(windstorm, r, j) denote the weighted sums insured for windstorm risk in risk zones i and j of region r set out in Annex IX.

6.

For all regions set out in Annex V and all risk zones of those regions set out in Annex IX, a firm must calculate the weighted sum insured for windstorm risk in a particular windstorm zone i of a particular region r in accordance with the following formula:

\[{WSI}_{\left(windstorm,\ r,i\right)}=Q_{\left(windstorm,r\right)}\cdot W_{\left(windstorm,r,i\right)}\cdot{SI}_{\left(windstorm,\ r,i\right)}\]

where:

  1. (1) W(windstorm, r, i) denotes the risk weight for windstorm risk in risk zone i of region r set out in Annex X;
  2. (2) SI(windstorm, r, i) denotes the sum insured for windstorm risk in windstorm zone i of region r; and
  3. (3) Q (windstorm, r) denotes the windstorm risk factor for region r as set out in Annex V.

7.

Where the amount determined for a particular risk zone in accordance with 3A9.6 exceeds an amount (referred to for these purposes as ‘the lower amount’) equal to the sum of the potential losses without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, that the firm could suffer for windstorm risk in that risk zone, taking into account the terms and conditions of its specific policies, including any contractual payment limits, the firm may, as an alternative calculation, determine the weighted sum insured for windstorm risk in that risk zone as the lower amount.

8.

For all regions set out in Annex V and all risk zones of those regions set out in Annex IX, a firm must calculate the sum insured for windstorm risk in a particular windstorm zone i of a particular region r in accordance with the following formula:

\[{SI}_{\left(windstorm,\ r,i\right)}={SI}_{\left(property,\ r,i\right)}+{SI}_{\left(onshore-property,r,i\right)}\]

where:

  1. (1) SI(property, r, i) denotes the sum insured by the firm for lines of business 7 and 19 in relation to contracts of insurance that cover windstorm risk and where the risk is situated in risk zone i of region r; and
  2. (2) SI(onshore-property, r, i) denotes the sum insured by the firm for lines of business 6 and 18 in relation to contracts of insurance that cover onshore property damage by windstorm and where the risk is situated in risk zone i of region r.

9.

A firm must calculate the capital requirement for windstorm risk in regions other than those set out in 3A10 as equal to the loss in its basic own funds that would result from an instantaneous loss in relation to each contract of insurance that covers any of the following insurance or reinsurance obligations:

  1. (1) obligations of lines of business 7 or 19 that cover windstorm risk and where the risk is not situated in one of the regions set out in 3A10; and
  2. (2) obligations of lines of business 6 or 18 in relation to onshore property damage by windstorm and where the risk is not situated in one of the regions set out in 3A10.

10.

A firm must calculate the amount of the instantaneous loss, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, referred to in 3A9.9 in accordance with the following formula:

\[L_{\left(windstorm,other\right)}=1.75\cdot\left(0.5\cdot{DIV}_{windstorm}+0.5\right)\cdot\ P_{windstorm} \]

where:

  1. (1) DIVwindstorm is calculated in accordance with 3A5, but based on the premiums in respect of the obligations referred to in 3A9.9 and restricted to the regions 5 to 18 set out in 3A5.8; and
  2. (2) Pwindstorm is an estimate of the premiums to be earned by the firm for each contract of insurance that covers the obligations referred to in 3A9.9 during the following 12 months provided that, for this purpose premiums must be gross, without deduction of premiums for reinsurance contracts.

3A10 List Of Regions For Which Natural Catastrophe Risk Is Not Calculated Based On Premiums

1.

The regions for which natural catastrophe risk is not calculated based on premiums are:

  1. (1) Member States of the European Union;
  2. (2) Principality of Andorra;
  3. (3) Republic of Iceland;
  4. (4) Principality of Lichtenstein;
  5. (5) Principality of Monaco;
  6. (6) Kingdom of Norway;
  7. (7) Republic of San Marino;
  8. (8) Swiss Confederation;
  9. (9) Vatican City State; and
  10. (10) The United Kingdom.

3A11 Earthquake Risk Sub-Module

1.

A firm must calculate the capital requirement for earthquake risk in accordance with the following formula:

\[{SCR}_{earthquake}=\sqrt{\left(\sum{_{r,s}}{CorrEQ}_{\left(r,s\right)}\cdot{SCR}_{\left(earthquake,r\right)}\cdot{SCR}_{\left(earthquake,s\right)}\right)+{{SCR}^2}_{\left(earthquake,other\right)}} \]

where:

  1. (1) the sum includes all possible combinations (r, s) of the regions set out in Annex VI;
  2. (2) CorrEQ(r, s) denotes the correlation coefficient for earthquake risk for region r and region s as set out in Annex VI;
  3. (3) SCR(earthquake, r) and SCR(earthquake, s) denote the capital requirements for earthquake risk in region r and s respectively; and
  4. (4) SCR(earthquake, other) denotes the capital requirement for earthquake risk in regions other than those set out in 3A10.

2.

For all regions set out in Annex VI, a firm must calculate the capital requirement for earthquake risk in a particular region r as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula:

\[L_{\left(earthquake,r\right)}=\sqrt{\sum{_{(i,j)}}{{Corr}_{\left(earthquake,r,i,j\right)}\cdot{WSI}_{\left(earthquake,r,i\right)}\cdot{WSI}_{\left(earthquake,r,j\right)}}} \]

where:

  1. (1) the sum includes all possible combinations of risk zones (i, j) of region r set out in Annex IX;
  2. (2) Corr(earthquake, r, i, j) denotes the correlation coefficient for earthquake risk in risk zones i and j of region r set out in Annex XXIII; and
  3. (3) WSI(earthquake, r, i) and WSI(earthquake, r, j) denote the weighted sums insured for earthquake risk in risk zones i and j of region r set out in Annex IX.

3.

For all regions set out in Annex VI and all risk zones of those regions set out in Annex IX, a firm must calculate the weighted sum insured for earthquake risk in a particular earthquake zone i of a particular region r in accordance with the following formula:

\[{WSI}_{\left(earthquake,r,i\right)}=Q_{\left(earthquake,r\right)}\cdot\ W_{\left(earthquake,r,i\right)}\cdot{SI}_{\left(earthquake,r,i\right)} \]

where:

  1. (1) W(earthquake, r, i) denotes the risk weight for earthquake risk in risk zone i of region r set out in Annex X;
  2. (2) SI(earthquake, r, i) denotes the sum insured for earthquake risk in earthquake zone i of region r; and
  3. (3) Q (earthquake, r) denotes the earthquake risk factor for region r as set out in Annex VI.

4.

Where the amount determined for a particular risk zone in accordance with 3A11.3 exceeds an amount (referred to for these purposes as ‘the lower amount’) equal to the sum of the potential losses, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, that the firm could suffer for earthquake risk in that risk zone, taking into account the terms and conditions of its specific policies, including any contractual payment limits, the firm may, as an alternative calculation, determine the weighted sum insured for earthquake risk in that risk zone as the lower amount.

5.

For all regions set out in Annex VI and all risk zones of those regions set out in Annex IX, a firm must calculate the sum insured for earthquake risk in a particular earthquake zone i of a particular region r in accordance with the following formula:

\[{SI}_{(earthquake,r,i)}={SI}_{\left(property,r,i\right)}+{SI}_{\left(onshore-property,r,i\right)}\]

where:

  1. (1) SI(property, r, i) denotes the sum insured of the firm for lines of business 7 and 19 in relation to contracts of insurance that cover earthquake risk and where the risk is situated in risk zone i of region r; and
  2. (2) SI(onshore-property, r, i) denotes the sum insured of the firm for lines of business 6 and 18 in relation to contracts of insurance that cover onshore property damage by earthquake and where the risk is situated in risk zone i of region r.

6.

A firm must calculate the capital requirement for earthquake risk in regions other than those set out in 3A10 as equal to the loss in its basic own funds that would result from an instantaneous loss in relation to each contract of insurance that covers one or both of the following insurance or reinsurance obligations:

  1. (1) obligations of lines of business 7 or 19 that cover earthquake risk, where the risk is not situated in one of the regions set out in 3A10; and
  2. (2) obligations of lines of business 6 or 18 in relation to onshore property damage by earthquake, where the risk is not situated in one of the regions set out in 3A10.

7.

A firm must calculate the amount of the instantaneous loss, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, referred to in 3A11.6, in accordance with the following formula:

\[L_{\left(earthquake,other\right)}=1.2\cdot\left(0.5\cdot{DIV}_{earthquake}+0.5\right)\cdot\ P_{earthquake}\]

where:

  1. (1) DIVearthquake is calculated in accordance with 3A5, but based on the premiums in respect of the obligations referred to in 3A11.6(1) and 3A11.6(2) and restricted to the regions 5 to 18 set out in 3A5; and
  2. (2) Pearthquake is an estimate of the premiums to be earned by the firm for each contract of insurance that covers the obligations referred to in 3A11.6(1) and 3A11.6(2) during the following 12 months provided that, for this purpose premiums must be gross, without deduction of premiums for reinsurance contracts.

3A12 Flood Risk Sub-module

1.

A firm must calculate the capital requirement for flood risk in accordance with the following formula:

\[{SCR}_{flood}=\sqrt{\left(\sum{_{\left(r,s\right)}}{{CorrFL}_{\left(r,s\right)}\cdot{SCR}_{\left(flood,r\right)}\cdot{SCR}_{\left(flood,s\right)}}\right)+{{SCR}^2}_{\left(flood,other\right)}}\]

where:

  1. (1) the sum includes all possible combinations (r, s) of the regions set out in Annex VII;
  2. (2) CorrFL(r, s) denotes the correlation coefficient for flood risk for region r and region s as set out in Annex VII;
  3. (3) SCR(flood, r) and SCR(flood, s) denote the capital requirements for flood risk in region r and s respectively; and
  4. (4) SCR(flood, other) denotes the capital requirement for flood risk in regions other than those set out in 3A10.

2.

For all regions set out in Annex VII, the capital requirement for flood risk in a particular region r must be the higher of the following capital requirements:

  1. (1) the capital requirement for flood risk in region r according to scenario A as set out in 3A12.3; and
  2. (2) the capital requirement for flood risk in region r according to scenario B as set out in 3A12.4.

3.

For all regions set out in Annex VII, a firm must calculate the capital requirement for flood risk in a particular region r according to scenario A as equal to the loss in its basic own funds that would result from the following sequence of events:

  1. (1) an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 65% of the specified flood loss in region r; and
  2. (2) a loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 45% of the specified flood loss in region r.

4.

For all regions set out in Annex VII, a firm must calculate the capital requirement for flood risk in a particular region r according to scenario B as equal to the loss in its basic own funds that would result from the following sequence of events:

  1. (1) an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 100% of the specified flood loss in region r; and
  2. (2) a loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 10% of the specified flood loss in region r.

5.

For all regions set out in Annex VII, a firm must calculate the specified flood loss in a particular region r in accordance with the following formula:

\[L_{\left(flood,r\right)}=\sqrt{\sum{_{(i,j)}}{{Corr}_{\left(flood,r,i,j\right)}\cdot{WSI}_{\left(flood,r,i\right)}\cdot{WSI}_{\left(flood,r,j\right)}}}\]

where:

  1. (1) the sum includes all possible combinations of risk zones (i, j) of region r set out in Annex IX;
  2. (2) Corr(flood, r, i, j) denotes the correlation coefficient for flood risk in flood zones i and j of region r set out in Annex XXIV; and
  3. (3) WSI(flood, r, i) and WSI(flood, r, j) denote the weighted sums insured for flood risk in risk zones i and j of region r set out in Annex IX.

6.

For all regions set out in Annex VII and all risk zones of those regions set out in Annex IX, a firm must calculate the weighted sum insured for flood risk in a particular flood zone i of a particular region r in accordance with the following formula:

\[{WSI}_{\left(flood,r,i\right)}=Q_{\left(flood,r\right)}\cdot W_{\left(flood,r,i\right)}\cdot{SI}_{\left(flood,r,i\right)}\]

where:

  1. (1) W(flood, r, i) denotes the risk weight for flood risk in risk zone i of region r set out in Annex X;
  2. (2) SI(flood, r, i) denotes the sum insured for flood risk in flood zone i of region r; and
  3. (3) Q (flood, r) denotes the flood risk factor for region r as set out in Annex VII.

7.

Where the amount determined for a particular risk zone in accordance with 3A12.6 exceeds an amount (referred to for these purposes as ‘the lower amount’) equal to the sum of the potential losses, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, that the firm could suffer for flood risk in that risk zone, taking into account the terms and conditions of its specific policies, including any contractual payment limits, the firm may, as an alternative calculation, determine the weighted sum insured for flood risk in that risk zone as the lower amount.

8.

For all regions set out in Annex VII and all risk zones of those regions set out in Annex IX, a firm must calculate the sum insured for flood risk for a particular risk zone i of a particular region r in accordance with the following formula:

\[{SI}_{\left(flood,r,i\right)}={SI}_{\left(property,r,i\right)}+{SI}_{\left(onshore-property,r,i\right)}+1.5\cdot{SI}_{\left(motor,r,i\right)}\]

where:

  1. (1) SI(property, r, i) denotes the sum insured by the firm for lines of business 7 and 19 in relation to contracts of insurance that cover flood risk, where the risk is situated in risk zone i of region r;
  2. (2) SI(onshore-property, r, i) denotes the sum insured by the firm for lines of business 6 and 18 in relation to contracts of insurance that cover onshore property damage by flood and where the risk is situated in risk zone i of region r; and
  3. (3) SI(motor, r, i) denotes the sum insured by the firm for lines of business 5 and 17 in relation to contracts of insurance that cover flood risk, where the risk is situated in risk zone i of region r.

9.

A firm must calculate the capital requirement for flood risk in regions other than those set out in 3A10, as equal to the loss in its basic own funds that would result from an instantaneous loss in relation to each contract of insurance that covers any of the following insurance or reinsurance obligations:

  1. (1) obligations of lines of business 7 or 19 that cover flood risk, where the risk is not situated in one of the regions set out in 3A10;
  2. (2) obligations of lines of business 6 or 18 in relation to onshore property damage by flood, where the risk is not situated in one of the regions set out in 3A10; and
  3. (3) obligations of lines of business 5 or 17 that cover flood risk, where the risk is not situated in one of the regions set out in 3A10.

10.

A firm must calculate the amount of the instantaneous loss, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, referred to in 3A12.9, in accordance with the following formula:

\[L_{\left(flood,other\right)}=1.1\cdot\left(0.5\cdot{DIV}_{flood}+0.5\right)\cdot P_{flood}\]

where:

  1. (1) DIVflood is calculated in accordance with 3A5, but based on the premiums in respect of the obligations referred to in 3A12.9(1), (2) and (3) and restricted to the regions 5 to 18 set out in 3A5.8; and
  2. (2) Pflood is an estimate of the premiums to be earned by the firm for each contract of insurance that covers the obligations referred to in 3A12.9(1), (2) and (3) during the following 12 months provided that, for this purpose, premiums must be gross, without deduction of premiums for reinsurance contracts.

3A13 Hail Risk Sub-Module

1.

A firm must calculate the capital requirement for hail risk in accordance with the following formula:

\[{SCR}_{hail}=\sqrt{\left(\sum_{\left(r,s\right)}{{CorrHL}_{\left(r,s\right)}\cdot{SCR}_{\left(hail,r\right)}\cdot{SCR}_{\left(hail,s\right)}}\right)+{{SCR}^2}_{\left(hail,other\right)}}\]

where:

  1. (1) the sum includes all possible combinations (r, s) of the regions set out in Annex VIII;
  2. (2) CorrHL(r, s) denotes the correlation coefficient for hail risk for region r and region s as set out in Annex VIII;
  3. (3) SCR(hail, r) and SCR(hail, s) denote the capital requirements for hail risk in regions r and s respectively; and
  4. (4) SCR(hail, other) denotes the capital requirement for hail risk in regions other than those set out in 3A10.

2.

For all regions set out in Annex VIII, a firm must calculate the capital requirement for hail risk in a particular region r as the higher of the following capital requirements:

  1. (1) the capital requirement for hail risk in region r according to scenario A as set out in 3A13.3; and
  2. (2) the capital requirement for hail risk in region r according to scenario B as set out in 3A13.4.

3.

For all regions set out in Annex VIII, a firm must calculate the capital requirement for hail risk in a particular region r according to scenario A as equal to the loss in its basic own funds that would result from the following sequence of events:

  1. (1) an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 70% of the specified hail loss in region r; and
  2. (2) a loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 50% of the specified hail loss in region r.

4.

For all regions set out in Annex VIII, a firm must calculate the capital requirement for hail risk in a particular region r according to scenario B as equal to the loss in its basic own funds that would result from the following sequence of events:

  1. (1) an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 100% of the specified hail loss in region r; and
  2. (2) a loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 20% of the specified hail loss in region r.

5.

For all regions set out in Annex VIII, a firm must calculate the specified hail loss in a particular region r in accordance with the following formula:

\[L_{\left(hail,r\right)}=\sqrt{\sum{_{\left(i,j\right)}}{Corr}_{\left(hail,r,i,j\right)}\cdot{WSI}_{\left(hail,r,i\right)}\cdot{WSI}_{\left(hail,r,j\right)}}\]

where:

  1. (1) the sum includes all possible combinations of risk zones (i, j) of region r set out in Annex IX;
  2. (2) Corr(hail, r, i, j) denotes the correlation coefficient for hail risk in risk zones i and j of region r set out in Annex XXV; and
  3. (3) WSI(hail, r, i) and WSI(hail, r, j) denote the weighted sums insured for hail risk in risk zones i and j of region r set out in Annex IX.

6.

For all regions set out in Annex VIII and all risk zones of those regions set out in Annex IX, a firm must calculate the weighted sum insured for hail risk in a particular hail zone i of a particular region r in accordance with the following formula:

\[{WSI}_{\left(hail,r,i\right)}=Q_{\left(hail,r\right)}\cdot\ W_{\left(hail,r,i\right)}\cdot{SI}_{\left(hail,r,i\right)}\]

where:

  1. (1) W(hail, r, i) denotes the risk weight for hail risk in risk zone i of region r set out in Annex X;
  2. (2) SI(hail, r, i) denotes the sum insured for hail risk in hail zone i of region r; and
  3. (3) Q (hail, r) denotes the hail risk factor for region r as set out in Annex VIII.

7.

Where the amount determined for a particular risk zone in accordance with 3A13.6 exceeds an amount (referred to for these purposes as ‘the lower amount’) equal to the sum of the potential losses, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, that the firm could suffer for hail risk in that risk zone taking into account the terms and conditions of its specific policies, including any contractual payment limits, the firm may, as an alternative calculation, determine the weighted sum insured for hail risk in that risk zone as the lower amount.

8.

For all regions set out in Annex VIII and all hail zones, a firm must calculate the sum insured for hail risk in a particular hail zone i of a particular region r in accordance with the following formula:

\[{SI}_{\left(hail,r,i\right)}={SI}_{\left(property,r,i\right)}+{SI}_{\left(onshore-property,r,i\right)}+5\cdot{SI}_{\left(motor,r,i\right)}\]

where:

  1. (1) SI(property, r, i) denotes the sum insured by the firm for lines of business 7 and 19 in relation to contracts of insurance that cover hail risk, where the risk is situated in risk zone i of region r;
  2. (2) SI(onshore-property, r, i) denotes the sum insured by the firm for lines of business 6 and 18 in relation to contracts of insurance that cover onshore property damage by hail, where the risk is situated in risk zone i of region r; and
  3. (3) SI(motor, r, i) denotes the sum insured by the firm for insurance or reinsurance obligations for lines of business 5 and 17 in relation to contracts of insurance that cover hail risk, where the risk is situated in risk zone i of region r.

9.

A firm must calculate the capital requirement for hail risk in regions other than those set out in 3A10, as equal to the loss in its basic own funds that would result from an instantaneous loss in relation to each contract of insurance that covers one or more of the following insurance or reinsurance obligations:

  1. (1) obligations of lines of business 7 or 19 that cover hail risk, where the risk is not situated in one of the regions set out in 3A10;
  2. (2) obligations of lines of business 6 or 18 in relation to onshore property damage by hail, where the risk is not situated in one of the regions set out in 3A10; and
  3. (3) obligations of lines of business 5 or 17 that cover hail risk, where the risk is not situated in one of the regions set out in 3A10.

10.

A firm must calculate the amount of the instantaneous loss, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, referred to in 3A13.9, in accordance with the following formula:

\[L_{\left(hail,other\right)}=0.3\cdot\left(0.5\cdot{DIV}_{hail}+0.5\right)\cdot\ P_{hail}\]

where:

  1. (1) DIVhail is calculated in accordance with 3A5, but based on the premiums in respect of the obligations referred to in 3A13.9(1), (2) and (3) and restricted to the regions 5 to 18 set out in 3A5; and
  2. (2) Phail is an estimate of the premiums to be earned by the firm for each contract of insurance that covers the obligations referred to in 3A13.9(1), (2) and (3) during the following 12 months provided that, for this purpose premiums must be gross, without deduction of premiums for reinsurance contracts.

3A14 Subsidence Risk Sub-Module

1.

A firm must calculate the capital requirement for subsidence risk as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula:

\[L_{\left(subsidence\right)}=\sqrt{\Sigma_{\left(i,j\right)}{Corr}_{\left(subsidence,i,j\right)}\cdot{WSI}_{\left(subsidence,i\right)}\cdot{WSI}_{\left(subsidence,j\right)}}\]

where:

  1. (1) the sum includes all possible combinations of risk zones (i, j) of France set out in Annex IX;
  2. (2) Corr(subsidence, i, j) denotes the correlation coefficient for subsidence risk in risk zones i and j set out in Annex XXVI; and
  3. (3) WSI(subsidence, i) and WSI(subsidence, j) denote the weighted sums insured for subsidence risk in risk zones i and j of France set out in Annex IX.

2.

For all subsidence zones, a firm must calculate the weighted sum insured for subsidence risk in a particular risk zone i of France set out in Annex IX in accordance with the following formula:

\[{WSI}_{\left(subsidence,i\right)}=0.0005\cdot\ W_{\left(subsidence,i\right)}\cdot{SI}_{\left(subsidence,i\right)}\]

where:

  1. (1) W(subsidence, i) denotes the risk weight for subsidence risk in risk zone i set out in Annex X; and
  2. (2) SI(subsidence, i) denotes the sum insured of the firm for lines of business 7 and 19 in relation to contracts of insurance that cover subsidence risk of residential buildings in subsidence zone i.

3.

Where the amount determined for a particular risk zone in accordance with 3A14.2 exceeds an amount (referred to for these purposes as ‘the lower amount’) equal to the sum of the potential losses, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, that the firm could suffer for subsidence risk in that risk zone, taking into account the terms and conditions of its specific policies, including any contractual payment limits, the firm may, as an alternative calculation, determine the weighted sum insured for subsidence risk in that risk zone as the lower amount.

3A15 Interpretation Of Catastrophe Scenarios

1.

For the purposes of 3A9.3 and 3A9.4, 3A12.3 and 3A12.4 and 3A13.3 and 3A13.4, a firm must base the calculation of the capital requirement on the following assumptions:

  1. (1) the two consecutive events referred to in those rules are independent; and
  2. (2) the firm does not enter into new insurance risk-mitigation techniques between the occurrence of the two events.

2.

Notwithstanding 3.3A(1)(d), where current reinsurance contracts allow for reinstatements:

  1. (1) a firm must take into account future management actions in relation to the reinstatements between the occurrence of the first and the second event; and
  2. (2) the assumptions about future management actions must be realistic, objective and verifiable.

3A16 Sub-Module For Catastrophe Risk Of Non-Proportional Property Reinsurance

1.

A firm must calculate the capital requirement for catastrophe risk of non-proportional property reinsurance as equal to the loss in Its basic own funds that would result from an instantaneous loss in relation to each reinsurance contract that covers reinsurance obligations of line of business 28 other than non-proportional reinsurance obligations relating to insurance obligations included in lines of business 9 and 21.

2.

A firm must calculate the amount of the instantaneous loss, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, referred to in 3A16.1 in accordance with the following formula:

\[L_{npproperty}=2.5\cdot\left(0.5\cdot{DIV}_{npproperty}+0.5\right)\cdot\ P_{npproperty}\]

where:

  1. (1) DIVnpproperty is calculated in accordance with 3A5, but based on the premiums earned by the firm in line of business 28, other than non-proportional reinsurance obligations relating to insurance obligations included in lines of business 9 and 21;
  2. (2) Pnpproperty is an estimate of the premiums to be earned by the firm during the following 12 months for each reinsurance contract that covers the reinsurance obligations of line of business 28 other than non-proportional reinsurance obligations relating to insurance obligations included in lines of business 9 and 21 provided that for this purpose premiums must be gross, without deduction of premiums for reinsurance contracts.

3A17 Man-Made Catastrophe Risk Sub-Module

1.

The man-made catastrophe risk sub-module must consist of all of the following sub-modules:
  1. (1) the motor vehicle liability risk sub-module;
  2. (2) the marine risk sub-module;
  3. (3) the aviation risk sub-module;
  4. (4) the fire risk sub-module;
  5. (5) the liability risk sub-module; and
  6. (6) the credit and suretyship risk sub-module.

2.

A firm must calculate the capital requirement for the man-made catastrophe risk in accordance with the following formula:

\[{SCR}_{mmCAT}=\sqrt{\sum_{i}{SCR}_i^2}\]

where:

  1. (1) the sum includes all sub-modules set out in 3A17.1; and
  2. (2) SCRi denotes the capital requirements for sub-module i.

3A18 Motor Vehicle Liability Risk Sub-Module

3A18

A firm must calculate the capital requirement for motor vehicle liability risk as equal to the loss in its basic own funds that would result from an instantaneous loss that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula in GBP:

\[L_{motor}=max\left(5,300,000;44,000\cdot\sqrt{N_a+0.05\cdot N_b+0.95\cdot min\left(N_b;20000\right)}\right)\]

where:

  1. (1) Na is the number of vehicles insured by the firm in lines of business 4 and 16 with a deemed policy limit above GBP 21,200,000; and
  2. (2) Nb is the number of vehicles insured by the firm in lines of business 4 and 16 with a deemed policy limit below or equal to GBP 21,200,000.

2.

The number of motor vehicles covered by the proportional reinsurance obligations of the firm must be weighted by the relative share of the firm’s obligations in respect of the sum insured of the motor vehicles.

3.

The deemed policy limit referred to in 3A18.1 must be:

  1. (1) the overall limit of the motor vehicle liability insurance policy or, where no such overall limit is specified in the terms and conditions of the policy, the sum of the limits for damage to property and for personal injury; or
  2. (2) where the policy limit is specified as a maximum per victim, based on the assumption of ten victims.

3A19 Marine Risk Sub-Module

1.

A firm must calculate the capital requirement for marine risk in accordance with the following formula:

\[{SCR}_{marine}=\sqrt{{SCR}_{vessel}^2+{SCR}_{platform}^2}\]

where:

  1. (1) SCR vessel is the capital requirement for the risk of a vessel collision; and
  2. (2) SCR platform is the capital requirement for the risk of a platform explosion.

2.

A firm must calculate the capital requirement for the risk of a vessel collision as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount calculated in accordance with the following formula:

\[L_{vessel}={max}_v\left({SI}_{\left(hull,v\right)}+{SI}_{\left(liab,v\right)}+{SI}_{\left(pollution,v\right)}\right)\]

where:

  1. (1) the maximum relates to all sea, lake, river, and canal vessels insured by the firm in respect of vessel collision in lines of business 6, 18 and 27 where the insured value of the vessel is at least GBP 220,000;
  2. (2) SI (hull, v) is the sum insured by the firm, after deduction of the amounts that the firm can recover from reinsurance contracts and special purpose vehicles, for marine hull insurance and reinsurance in relation to vessel v;
  3. (3) SI (liab, v) is the sum insured by the firm, after deduction of the amounts that the firm can recover from reinsurance contracts and special purpose vehicles, for marine liability insurance and reinsurance in relation to vessel v; and
  4. (4) SI (pollution, v) is the sum insured by the firm, after deduction of the amounts that the firm can recover from reinsurance contracts and special purpose vehicles, for oil pollution insurance and reinsurance in relation to vessel v.

3.

For the purposes of determining SI (hull, v), SI (liab, v), and SI (pollution, v), a firm must only take into account reinsurance contracts and special purpose vehicles that would pay out in the event of insurance claims related to vessel v and must not take into account reinsurance contracts and special purpose vehicles where payout is dependent on insurance claims not related to vessel v.

4.

Where the deduction of amounts recoverable would lead to a capital requirement for the risk of a vessel collision that insufficiently captures the risk of a vessel collision that the firm is exposed to, the firm must calculate SI (hull, v), SI (liab, v), or SI (pollution, v) without deduction of amounts recoverable.

5.

A firm must calculate the capital requirement for the risk of a platform explosion as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount calculated in accordance with the following formula:

\[L_{platform}=\underset{p}{max}{\left({SI}_p\right)}\]

where:

  1. (1) the maximum relates to all oil and gas offshore platforms insured by the firm in respect of platform explosion in lines of business 6, 18, and 27; and
  2. (2) SI p is the accumulated sum insured by the firm, after deduction of the amounts that the firm can recover from reinsurance contracts and special purpose vehicles, for the following insurance and reinsurance obligations in relation to platform p:
    1. (a) obligations to compensate for property damage;
    2. (b) obligations to compensate for the expenses for the removal of wreckage;
    3. (c) obligations to compensate for loss of production income;
    4. (d) obligations to compensate for the expenses for capping of the well or making the well secure; and
    5. (e) liability insurance and reinsurance obligations.

6.

For the purposes of determining SI p, a firm must only take into account reinsurance contracts and special purpose vehicles that would pay out in the event of insurance claims related to platform p and must not take into account reinsurance contracts and special purpose vehicles where payout is dependent on insurance claims that are not related to platform p.

7.

Where the deduction of amounts recoverable would lead to a capital requirement for the risk of a platform explosion that insufficiently captures the risk of a platform explosion that the firm is exposed to, the firm must calculate SI p without the deduction of amounts recoverable.

3A20 Aviation Risk Sub-Module

1.

A firm must calculate the capital requirement for aviation risk as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount calculated in accordance with the following formula:

\[L_{aviation}=\underset{a}{max}{\left({SI}_a\right)}\]

where:

  1. (1) the maximum relates to all aircrafts insured by the firm in lines of business 6, 18, and 27; and
  2. (2) SI a is the sum insured by the firm, after deduction of the amounts that the firm can recover from reinsurance contracts and special purpose vehicles, for aviation hull insurance and reinsurance and aviation liability insurance and reinsurance in relation to aircraft a.

2.

For the purposes of 3A20, a firm must only take into account reinsurance contracts and special purpose vehicles that would pay out in the event of insurance claims related to aircraft a and must not take into account reinsurance contracts and special purpose vehicles where payout is dependent on insurance claims that are not related to aircraft a.

3.

Where the deduction of amounts recoverable would lead to a capital requirement for aviation risk that insufficiently captures the aviation risk that the firm is exposed to, the firm must, calculate SI a without the deduction of amounts recoverable.

3A21 Fire Risk Sub-Module

1.

A firm must calculate the capital requirement for fire risk as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount equal to the sum insured by the firm with respect to the largest fire risk concentration.

2.

The largest fire risk concentration of a firm is the set of buildings with the highest sum insured, after deduction of the amounts that the firm can recover from reinsurance contracts and special purpose vehicles, that meets all of the following requirements:

  1. (1) the firm has insurance or reinsurance obligations in lines of business 7 and 19, in relation to each building that cover damage due to fire or explosion, including as a result of terrorist attacks; and
  2. (2) all buildings are partly or fully located within a radius of 200 metres.

3.

In determining the sum insured for a set of buildings, a firm must only take into account reinsurance contracts and special purpose vehicles that would pay out in the event of insurance claims related to that set of buildings and must not take into account reinsurance contracts and special purpose vehicles where payout is dependent on insurance claims that are not related to that set of buildings.

4.

Where the deduction of amounts recoverable would lead to a capital requirement for fire risk that insufficiently captures the fire risk that the firm is exposed to, the firm must calculate the sum insured for a set of buildings without the deduction of amounts recoverable.

5.

For the purposes of 3A21.2 to 3A21.4, the set of buildings may be covered by one or several contracts of insurance or reinsurance contracts.

3A22 Liability Risk Sub-Module

1.

A firm must calculate the capital requirement for liability risk in accordance with the following formula:

\[{SCR}_{liability}=\sqrt{\sum_{\left(i,j\right)}{{Corr}_{\left(liability,i,j\right)}\cdot{SCR}_{\left(liability,i\right)}\cdot{SCR}_{\left(liability,j\right)}}}\]

where:

  1. (1) the sum includes all possible combinations of liability risk groups (i, j) as set out in Annex XI;
  2. (2) Corr(liability, i, j) denotes the correlation coefficient for liability risk of liability risk groups i and j as set out in Annex XI; and
  3. (3) SCR(liability, i) denotes the capital requirement for liability risk of liability risk group i.

2.

For all liability risk groups set out in Annex XI, a firm must calculate the capital requirement for liability risk of a particular liability risk group i as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula:

\[L_{\left(liability,i\right)}=f_{\left(liability,\ i\right)}\cdot\ P_{\left(liability,i\right)}\]

where:

  1. (1) f(liability, i) denotes the risk factor for liability risk group i as set out in Annex XI; and
  2. (2) P(liability, i) denotes the premiums earned by the firm during the following 12 months in relation to insurance and reinsurance obligations in liability risk group i; for this purpose premiums must be gross, without deduction of premiums for reinsurance contracts.

3.

The calculation of the loss in basic own funds referred to in 3A22.2 must be based on the following assumptions:

  1. (1) the loss of liability risk group i is caused by ni claims and the losses caused by these claims are representative for the business of the firm in liability risk group i and sum up to the loss of liability risk group i; and
  2. (2) the number of claims ni is equal to the lowest integer that exceeds the following amount:

\[\frac{f_{\left(liability,i\right)}\cdot P_{\left(liability,i\right)}}{1.15\cdot{Lim}_{\left(i,1\right)}}\]

where:

  1. (a) f(liability, i) and P(liability, i) are defined as in 3A22.2; and
  2. (b) Lim(i, 1) denotes the highest liability limit of indemnity provided by the firm in liability risk group i;
  1. (3) where the firm provides unlimited cover in liability risk group i, the number of claims ni is equal to one.

3A23 Credit And Suretyship Risk Sub-Module

1.

A firm must calculate the capital requirement for credit and suretyship risk in accordance with the following formula:

\[{SCR}_{credit}=\sqrt{{SCR}_{default}^2+{SCR}_{recession}^2}\]

where:

  1. (1) SCRdefault is the capital requirement for the risk of a large credit default; and
  2. (2) SCRrecession is the capital requirement for recession risk.

2.

A firm must calculate the capital requirement for the risk of a large credit default as equal to the loss in its basic own funds that would result from an instantaneous default of the two largest exposures relating to obligations included in lines of business 9 and 21 of the firm and must base this calculation on the assumption that the loss-given-default, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, of each exposure is 10% of the sum insured in relation to the exposure.

3.

The two largest credit insurance exposures referred to in 3A23.2 must be determined based on a comparison of the net loss-given-default of the credit insurance exposures, being the loss-given-default after deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles.

4.

A firm must calculate the capital requirement for recession risk as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is equal to 100% of the premiums earned by the firm during the following 12 months in lines of business 9 and 21.

3A24 Sub-Module For Other Non-Life Catastrophe Risk

1.

A firm must calculate the capital requirement for other non-life catastrophe risk as equal to the loss in its basic own funds that would result from an instantaneous loss, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, that is equal to the following amount:

\[L_{other}=\sqrt{\left(c_1\cdot P_1+c_2\cdot P_2\right)^2+\left(c_3\cdot P_3\right)^2+\left(c_4\cdot P_4\right)^2+\left(c_5\cdot P_5\right)^2}\]

where:

  1. (1) P 1, P 2, P 3, P 4, and P 5 denote estimates of the gross premium, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, expected to be earned by the firm during the following 12 months in relation to the groups of insurance and reinsurance obligations 1 to 5 set out in Annex XII; and
  2. (2) c 1, c 2, c 3, c 4, and c 5 denote the risk factors for the groups of insurance and reinsurance obligations 1 to 5 set out in Annex XII.

3B

Life Underwriting Risk Module

3B1 Life Mortality Risk Sub-Module

1.

A firm must calculate the capital requirement for mortality risk as equal to the loss in its basic own funds that would result from an instantaneous permanent increase of 15% in the mortality rates used for the calculation of technical provisions.

2.

A firm must only apply the increase in mortality rates referred to in 3B1.1 to those insurance policies for which an increase in mortality rates leads to an increase in technical provisions without the risk margin and in identifying such policies, the firm may make the following assumptions: 

  1. (1) multiple insurance policies in respect of the same insured person may be treated as if they were one insurance policy; and
  2. (2) where the calculation of technical provisions is based on groups of policies as referred to in Technical Provisions – Further Requirements 20, the identification of the policies for which technical provisions increase under an increase in mortality rates may also be based on those groups of policies instead of single policies, provided that it yields a result that is not materially different.

3.

With regard to reinsurance obligations, the identification of the policies for which technical provisions increase under an increase in mortality rates must only apply to the underlying insurance policies and must be carried out in accordance with 3B1.2.

3B2 Life Longevity Risk Sub-Module

1.

A firm must calculate the capital requirement for longevity risk as equal to the loss in its basic own funds that would result from an instantaneous permanent decrease of 20% in the mortality rates used for the calculation of technical provisions.

2.

A firm must only apply the decrease in mortality rates referred to in 3B2.1 to those insurance policies for which a decrease in mortality rates leads to an increase in technical provisions without the risk margin and in identifying such policies, the firm may make the following assumptions:

  1. (1) multiple insurance policies in respect of the same insured person may be treated as if they were one insurance policy; and
  2. (2) where the calculation of technical provisions is based on groups of policies as referred to in Technical Provisions – Further Requirements 20, the identification of the policies for which technical provisions increase under a decrease in mortality rates may also be based on those groups of policies instead of single policies, provided that it yields a result that is not materially different.

3.

With regard to reinsurance obligations, the identification of the policies for which technical provisions increase under a decrease in mortality rates must only apply to the underlying insurance policies and must be carried out in accordance with 3B2.2.

3B3 Life Disability Morbidity Risk Sub-Module

1.

A firm must calculate the capital requirement for disability-morbidity risk as equal to the loss in its basic own funds that would result from the combination of the following instantaneous permanent changes:

  1. (1) an increase of 35% in the disability and morbidity rates that are used in the calculation of technical provisions to reflect the disability and morbidity experience in the following 12 months;
  2. (2) an increase of 25% in the disability and morbidity rates that are used in the calculation of technical provisions to reflect the disability and morbidity experience for all months after the following 12 months; and
  3. (3) a decrease of 20% in the disability and morbidity recovery rates used in the calculation of technical provisions in respect of the following 12 months and for all years thereafter.

3B4 Life-Expense Risk Sub-Module

1.

A firm must calculate the capital requirement for life expense risk as equal to the loss in its basic own funds that would result from the combination of the following instantaneous permanent changes:

  1. (1) an increase of 10% in the amount of expenses taken into account in the calculation of technical provisions; and
  2. (2) an increase of one percentage point to the expense inflation rate (expressed as a percentage) used in the calculation of technical provisions.

2.

With regard to reinsurance obligations, a firm must apply those changes to its own expenses and, where relevant, to the expenses of the ceding undertakings.

3B5 Life Revision Risk Sub-Module

1.

A firm must calculate the capital requirement for life revision risk as equal to the loss in its basic own funds that would result from an instantaneous permanent increase of 3% in the amount of annuity benefits only on annuity insurance and reinsurance obligations where the benefits payable under the underlying insurance policies could increase as a result of changes in the legal environment or in the state of health of the person insured.

3B6 Life Lapse Risk Sub-Module

1.

A firm must calculate the capital requirement for lapse risk as equal to the highest of the following capital requirements:

  1. (1) the capital requirement for the risk of a permanent increase in lapse rates;
  2. (2) the capital requirement for the risk of a permanent decrease in lapse rates; and
  3. (3) the capital requirement for mass lapse risk.

2.

A firm must calculate the capital requirement for the risk of a permanent increase in lapse rates as equal to the loss in its basic own funds that would result from an instantaneous permanent increase of 50% in the option exercise rates of the relevant options (as set out in 3B6.4 and 3B6.5), provided that the increased option exercise rates must not exceed 100% and the increase in option exercise rates must only apply to relevant options for which the exercise of the option would result in an increase in technical provisions without the risk margin.

3.

A firm must calculate the capital requirement for the risk of a permanent decrease in lapse rates as equal to the loss in its basic own funds that would result from an instantaneous permanent decrease of 50% in the option exercise rates of the relevant options (as set out in 3B6.4 and 3B6.5), provided that the decrease in option exercise rates must not exceed 20 percentage points and the decrease in option exercise rates must only apply to relevant options for which the exercise of the option would result in a decrease in technical provisions without the risk margin.

4.

The relevant options for the purposes of 3B6.2 and 3B6.3 are the following:

  1. (1) all legal or contractual policyholder rights to fully or partly terminate, surrender, decrease, restrict or suspend insurance cover or permit the insurance policy to lapse; and
  2. (2) all legal or contractual policyholder rights to fully or partially establish, renew, increase, extend or resume the insurance or reinsurance cover.

For the purposes of 3B6.4(2) the change in the option exercise rate referred to in 3B6.2 and 3B6.3 must be applied to the rate reflecting that the relevant option is not exercised.

5.

In relation to reinsurance contracts the relevant options for the purposes of 3B6.2 and 3B6.3 are the following:

  1. (1) the rights referred to in 3B6.4 of the policyholders of the reinsurance contracts;
  2. (2) the rights referred to in 3B6.4 of the policyholders of the contracts of insurance underlying the reinsurance contracts; and
  3. (3) where the reinsurance contract covers contracts of insurance or reinsurance contracts that will be written in the future, the right of the potential policyholders not to conclude those contracts of insurance or reinsurance contracts.

6.

A firm must calculate the capital requirement for mass lapse risk as equal to the loss in its basic own funds that would result from a combination of the following instantaneous events:

  1. (1) the discontinuance of 70% of the insurance policies falling within the scope of operations referred to with Regulated Activities Order Schedule 1, Part II, class VII and Regulated Activities Order Schedule 1, Part II, class III for which discontinuance would result in an increase in technical provisions without the risk margin and where one of the following requirements are met:
    1. (a) the policyholder is not a natural person and discontinuance of the policy is not subject to approval by the beneficiaries of the pension fund; or
    2. (b) the policyholder is a natural person acting for the benefit of the beneficiaries of the policy, except where there is a family relationship between that natural person and the beneficiaries, or where the policy is effected for private estate planning or inheritance purposes and the number of beneficiaries under the policy does not exceed 20;
  2. (2) the discontinuance of 40% of the insurance policies other than those falling within 3B6.6(1) for which discontinuance would result in an increase in technical provisions without the risk margin; and
  3. (3) where reinsurance contracts cover contracts of insurance or reinsurance contracts that will be written in the future, the decrease of 40% of the number of those future contracts of insurance or reinsurance contracts used in the calculation of technical provisions.

7.

A firm must apply the events referred to in 3B6.6 uniformly to all relevant contracts of insurance and reinsurance contracts and, in respect of any such reinsurance contracts, the firm must apply the event referred to in 3B6.6(1) to the underlying contracts of insurance.

8.

For the purposes of determining the loss in its basic own funds under the events referred to in 3B6.6(1) and (2) the firm must base the calculation on the type of discontinuance that most negatively affects its basic own funds on a per policy basis.

9.

Where the highest of the capital requirements referred to in 3B6.1(1), (2) and (3) and the highest of the corresponding capital requirements calculated in accordance with 6.3(2) are not based on the same scenario, the capital requirement for lapse risk must be the capital requirement referred to in 3B6.1(1), (2) and (3) for which the underlying scenario results in the highest corresponding capital requirement calculated in accordance with 6.3(2).

3B7 Life-Catastrophe Risk Sub-Module

1.

A firm must calculate the capital requirement for life-catastrophe risk as equal to the loss in its basic own funds that would result from an instantaneous increase of 0.15 percentage points in the mortality rates (expressed as percentages) that are used in the calculation of technical provisions to reflect the mortality experience in the following 12 months.

2.

A firm must only apply the increase in mortality rates referred to in 3B7.1 to those insurance policies for which an increase in mortality rates that are used to reflect the mortality experience in the following 12 months leads to an increase in technical provisions without the risk margin and in identifying such policies, the firm may make the following assumptions:

  1. (1) multiple insurance policies in respect of the same insured person may be treated as if they were one insurance policy; and
  2. (2) where the calculation of technical provisions is based on groups of policies as referred to in Technical Provisions – Further Requirements 20 the identification of the policies for which technical provisions increase under an increase in mortality rates may also be based on those groups of policies instead of single policies, provided that it yields a result that is not materially different.

3.

With regard to reinsurance policies, the identification of the policies for which technical provisions increase under an increase in mortality rates must only apply to the underlying insurance policies and must be carried out in accordance with 3B7.2

3C

Health Underwriting Risk Module

3C1 NSLT Health Underwriting Risk Sub-Module

1.

The NSLT health underwriting risk sub-module must consist of the following sub-modules:

  1. (1) the NSLT health premium and reserve risk sub-module; and
  2. (2) the NSLT health lapse risk sub-module.

2.

A firm must calculate the capital requirement for NSLT health underwriting risk in accordance with the following formula:

\[{SCR}_{NSLTh}=\sqrt{{SCR}_{\left(NSLTh,pr\right)}^2+{SCR}_{\left(NSLTh,lapse\right)}^2}\]

where:

  1. (1) SCR(NSLTh, pr) denotes the capital requirement for NSLT health premium and reserve risk; and
  2. (2) SCR(NSLTh, lapse) denotes the capital requirement for NSLT health lapse risk.

3C2 NSLT Health Premium And Reserve Risk Sub-Module

1.

A firm must calculate the capital requirement for NSLT health premium and reserve risk in accordance with the following formula:

\[{SCR}_{\left(NSLT,pr\right)}=3\cdot\sigma_{NSLTh}\cdot V_{NSLTh}\]

where:

  1. (1) σNSLTh denotes the standard deviation for NSLT health premium and reserve risk determined in accordance with 3C5; and
  2. (2) VNSLTh denotes the volume measure for NSLT health premium and reserve risk determined in accordance with 3C3.

3C3 Volume Measure For NSLT Health Premium And Reserve Risk

1.

A firm must calculate the volume measure for NSLT health premium and reserve risk as equal to the sum of the volume measures for premium and reserve risk of the segments set out in 3C4.

2.

For all segments set out in 3C4 a firm must calculate the volume measure of a particular segment s in accordance with the following formula:

\[V_s=\left(V_{\left(prem,s\right)}+V_{\left(res,s\right)}\right)\cdot\left(0.75+0.25\cdot{DIV}_s\right)\]

where:

  1. (1) V(prem, s) denotes the volume measure for premium risk of segment s;
  2. (2) V(res, s) denotes the volume measure for reserve risk of segment s; and
  3. (3) DIVs denotes the factor for geographical diversification of segment s.

3.

For all segments set out in 3C4 a firm must calculate the volume measure for premium risk of a particular segment s in accordance with the following formula:

\[V_{\left(prem,s\right)}=max\left(P_s;P_{\left(last,s\right)}\right)+{FP}_{\left(existing,s\right)}+{FP}_{\left(future,s\right)}\]

where:

  1. (1) Ps denotes an estimate of the premiums to be earned by the firm for the segment s during the following 12 months;
  2. (2) P(last, s) denotes the premiums earned by the firm for the segment s during the last 12 months;
  3. (3) FP(existing, s) denotes the expected present value of premiums to be earned by the firm for the segment s after the following 12 months for existing contracts of insurance; and
  4. (4) FP (future, s) denotes the following amount with respect to contracts of insurance where the initial recognition date falls in the following 12 months:
    1. (a) for all such contracts of insurance with an initial term of one year or less, the expected present value of premiums to be earned by the firm for the segment s, but excluding the premiums to be earned during the 12 months after the initial recognition date; and
    2. (b) for all such contracts of insurance with an initial term of more than one year, the amount equal to 30% of the expected present value of premiums to be earned by the firm for the segment s after the following 12 months.

4.

For all segments set out in 3C4, a firm may, as an alternative to the calculation set out in 3C3.3, choose to calculate the volume measure for premium risk of a particular segment s in accordance with the following formula:

\[V_{\left(prem,s\right)}=P_s+{FP}_{\left(existing,s\right)}+{FP}_{\left(future,s\right)}\]

provided that all of the following requirements are met:

  1. (1) the governing body of the firm has decided that its earned premiums for the segment s during the following 12 months will not exceed Ps;
  2. (2) the firm has established effective control mechanisms to ensure that the limits on earned premiums referred to in (1) will be met; and
  3. (3) the firm has informed the PRA in writing about the decision referred to in (1) and the reasons for it.

5.

For the purposes of 3C3.4, the terms Ps, FP(existing, s) and FP(future, s) must be determined in accordance with 3C3.3(a), (c) and (d).

7.

For all segments set out in 3C4, a firm must calculate the volume measure for reserve risk of a particular segment as equal to the best estimate for the provision for claims outstanding for the segment, after deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, provided that:

  1. (1) the reinsurance contracts or special purpose vehicles comply with 3G2, 3G3, 3G5 and 3G7; and
  2. (2) the volume measure must not be a negative amount.

8.

For all segments set out in 3C4, the default factor for geographical diversification must be either equal to 1 or calculated in accordance with 3A5.

3C4 Segmentation of NSLT Health Insurance Obligations and NSLT Health Reinsurance Obligations and Standard Deviations for the NSLT Health Premium and Reserve Risk Sub-module

  Segment Lines of business that the segment consists of Standard deviation for gross premium risk of the segment Standard deviation for reserve risk of the segment
1 Medical expense insurance and proportional reinsurance 1 and 13 5% 5.7%
2 Income protection insurance and proportional reinsurance
2 and 14
8.5%
14%
3 Workers’ compensation insurance and proportional reinsurance
3 and 15
9.6% 11%
4 Non-proportional health reinsurance 25 17% 17%

3C5 Standard Deviation For NSLT Health Premium And Reserve Risk

1.

A firm must calculate the standard deviation for NSLT health premium and reserve risk in accordance with the following formula:

\[\sigma_{NSLTh}=\frac{1}{V_{NSLTh}}\cdot\sqrt{\sum_{s,t}{CorrHS}_{\left(s,t\right)}\cdot\sigma_s\cdot V_s\cdot\sigma_t\cdot V_t}\]

where:

  1. (1) VNSLTh denotes the volume measure for NSLT health premium and reserve risk;
  2. (2) the sum covers all possible combinations (s, t) of the segments set out in 3C4;
  3. (3) CorrHS(s, t) denotes the correlation coefficient for NSLT health premium and reserve risk for segment s and segment t set out in 3C6;
  4. (4) σs and σt denote standard deviations for NSLT health premium and reserve risk of segments s and t respectively; and
  5. (5) Vs and Vt denote volume measures for premium and reserve risk of segments s and t, referred to in 3C4, respectively.

2.

For all segments set out in 3C4, a firm must calculate the standard deviation for NSLT health premium and reserve risk of a particular segment s in accordance with the following formula:

\[\sigma_s=\frac{\sqrt{\sigma_{\left(prem,s\right)}^2\cdot V_{\left(prem,s\right)}^2+\sigma_{\left(prem,s\right)}\cdot V_{\left(prem,s\right)}\cdot\sigma_{\left(res,s\right)}\cdot V_{\left(res,s\right)}+\sigma_{\left(res,s\right)}^2\cdot V_{\left(res,s\right)}^2}}{V_{\left(prem,s\right)}+V_{\left(res,s\right)}}\]

where:

  1. (1) σ(prem, s) denotes the standard deviation for NSLT health  risk of segment s determined in accordance with 3C5.3;
  2. (2) σ(res, s) denotes the standard deviation for NSLT health reserve risk of segment s as set out in 3C4; and
  3. (3) V(prem, s) denotes the volume measure for premium risk of segment s referred to in 3C3;
  4. (4) V(res, s) denotes the volume measure for reserve risk of segment s referred to in 3C3.

3.

For all segments set out in 3C4, a firm must calculate the standard deviation for NSLT health premium risk of a particular segment as equal to the product of the standard deviation for NSLT health gross premium risk of the segment set out in 3C4 and the adjustment factor for non-proportional reinsurance, which, for all segments set out in 3C4 must be equal to 100%.

3C6 Correlation Matrix For NSLT Health Premium And Reserve Risk

1.

The correlation coefficient CorrHS(s, t) referred to in 3C5.1 must be equal to the item set out in row s and in column t of the following correlation matrix. The headings of the rows and columns denote the numbers of the segments set out 3C4:

t, s 1 2 3 4
1 1 0.5 0.5 0.5
2 0.5 1 0.5 0.5
3 0.5 0.5 1 0.5
4 0.5 0.5 0.5 1

3C7 NSLT Health Lapse Risk Sub-Module

1.

A firm must calculate the capital requirement for NSLT health lapse risk as equal to the loss in its basic own funds that would result from the combination of the following instantaneous events:

  1. (1) the discontinuance of 40% of the insurance policies for which discontinuance would result in an increase of technical provisions without the risk margin; and
  2. (2) where reinsurance contracts cover contracts of insurance or reinsurance contracts that will be written in the future, the decrease of 40% of the number of those future contracts of insurance or reinsurance contracts used in the calculation of technical provisions.

2.

A firm must apply the events referred to in 3C7.1 uniformly to relevant all contracts of insurance and reinsurance contracts and, in respect of any such reinsurance contracts, the firm must apply the event referred to in 3C7.1(1) to the underlying contracts of insurance.

3.

For the purposes of determining the loss in its basic own funds under the event referred to in 3C7.1(1), the firm must base the calculation on the type of discontinuance that most negatively affects its basic own funds on a per policy basis.

3C8 SLT Health Underwriting Risk Sub-Module

1.

The SLT health underwriting risk sub-module must consist of all of the following sub-modules:

  1. (1) the health mortality risk sub-module;
  2. (2) the health longevity risk sub-module;
  3. (3) the health disability-morbidity risk sub-module;
  4. (4) the health expense risk sub-module;
  5. (5) the health revision risk sub-module; and
  6. (6) the SLT health lapse risk sub-module.

2.

A firm must calculate the capital requirement for SLT health underwriting risk in accordance with the following formula:

\[{SCR}_{SLTh}=\sqrt{\sum{_{i,j}}{{CorrSLTH}_{\left(i,j\right)}\cdot{SCR}_i\cdot{SCR}_j}}\]

where:

  1. (1) the sum denotes all possible combinations (i, j) of the sub-modules set out in 3C8.1;
  2. (2) CorrSLTH(i, j) denotes the correlation coefficient for SLT health underwriting risk for sub-modules i and j; and
  3. (3) SCRi and SCRj denote the capital requirements for risk sub-modules i and j respectively.

3.

The correlation coefficient CorrSLTH(i, j) referred to in 3C8.2 must be equal to the value set out in row i and in column j of the following correlation matrix:

3C8 Rule 3 i\j table head
Health mortality Health longevity
Health disability-morbidity Health expense
Health revision
SLT health lapse
Health mortality
 1 -0.25 0.25 0.25 0 0
Health longevity
-0.25 1 0 0.25 0.25 0.25
Health disability-morbidity
0.25 0 1 0.5 0 0
Health expense
0.25 0.25 0.5 1 0.5 0.5
Health revision
0 0.25 0 0.5 1 0
SLT health lapse
0 0.25 0 0.5 0 1

 

3C9 Health Mortality Risk Sub-Module

1.

A firm must calculate the capital requirement for health mortality risk as equal to the loss in its basic own funds that would result from an instantaneous permanent increase of 15% in the mortality rates used for the calculation of technical provisions.

2.

A firm must only apply the increase in mortality rates referred to in 3C9.1 to those insurance policies for which an increase in mortality rates leads to an increase in technical provisions without the risk margin and in identifying such policies, the firm may make the following assumptions:

  1. (1) multiple insurance policies in respect of the same insured person may be treated as if they were one insurance policy; and
  2. (2) where the calculation of technical provisions is based on groups of policies as referred to in Technical Provisions – Further Requirements 20, the identification of the policies for which technical provisions increase under an increase in mortality rates may also be based on those groups of policies instead of single policies, provided that it yields a result that is not materially different. 

3.

With regard to reinsurance obligations, the identification of the policies for which technical provisions increase under an increase in mortality rates must only apply to the underlying insurance policies and must be carried out in accordance with 3C9.2.

3C10 Health Longevity Risk Sub-Module

1.

A firm must calculate the capital requirement for health longevity risk as equal to the loss in its basic own funds that would result from an instantaneous permanent decrease of 20% in the mortality rates used for the calculation of technical provisions.

2.

A firm must only apply the decrease in mortality rates referred to in 3C10.1 to those insurance policies for which a decrease in mortality rates leads to an increase in technical provisions without the risk margin and in identifying such policies, the firm may make the following assumptions:

  1. (1) multiple insurance policies in respect of the same insured person may be treated as if they were one insurance policy; and
  2. (2) where the calculation of technical provisions is based on groups of policies as referred to in Technical Provisions – Further Requirements 20, the identification of the policies for which technical provisions increase under a decrease in mortality rates may also be based on those groups of policies instead of single policies, provided that it yields a result that is not materially different. 

3.

With regard to reinsurance obligations, the identification of the policies for which technical provisions increase under a decrease in mortality rates must only apply to the underlying insurance policies and must be carried out in accordance with 3C10.2

3C11 Health Disability-Morbidity Risk Sub-Module

1.

A firm must calculate the capital requirement for health disability-morbidity risk as the sum of the following:

  1. (1) the capital requirement for medical expense disability-morbidity risk; and
  2. (2) the capital requirement for income protection disability-morbidity risk

2.

A firm must apply:

  1. (1) the scenarios underlying the calculation of the capital requirement for medical expense disability-morbidity risk only to medical expense insurance obligations and medical expense reinsurance obligations where the underlying business is pursued on a similar technical basis to that of life insurance; and
  2. (2) the scenarios underlying the calculation of the capital requirement for income protection disability-morbidity risk only to income protection insurance obligations and income protection reinsurance obligations where the underlying business is pursued on a similar technical basis to that of life insurance.

3C12 Capital Requirement For Medical Expense Disability-Morbidity Risk

1.

A firm must calculate the capital requirement for medical expense disability-morbidity risk as equal to the higher of the following capital requirements:

  1. (1) the capital requirement for the increase of medical payments; and
  2. (2) the capital requirement for the decrease of medical payments.

2.

A firm must calculate the capital requirement for the increase of medical payments as equal to the loss in its basic own funds that would result from the following combination of instantaneous permanent changes:

  1. (1) an increase of 5% in the amount of medical payments taken into account in the calculation of technical provisions; and
  2. (2) an increase of one percentage point in the inflation rate of medical payments (expressed as a percentage) used for the calculation of technical provisions.

3.

A firm must calculate the capital requirement for the decrease of medical payments as equal to the loss in its basic own funds that would result from the following combination of instantaneous permanent changes:

  1. (1) a decrease of 5% in the amount of medical payments taken into account in the calculation of technical provisions; and
  2. (2) a decrease of one percentage point in the inflation rate of medical payments (expressed as a percentage) used for the calculation of technical provisions.

3C13 Capital Requirement For Income Protection Disability-Morbidity Risk

1.

A firm must calculate the capital requirement for income protection disability-morbidity risk as equal to the loss in its basic own funds that would result from the following combination of instantaneous permanent changes:

  1. (1) an increase of 35% in the disability and morbidity rates that are used in the calculation of technical provisions to reflect the disability and morbidity in the following 12 months;
  2. (2) an increase of 25% in the disability and morbidity rates that are used in the calculation of technical provisions to reflect the disability and morbidity in the years after the following 12 months;
  3. (3) where the disability and morbidity recovery rates used in the calculation of technical provisions are lower than 50%, a decrease of 20% in those rates; and
  4. (4) where the disability and morbidity persistency rates used in the calculation of technical provisions are equal to or lower than 50%, an increase of 20% in those rates.

3C14 Health Expense Risk Sub-Module

1.

A firm must calculate the capital requirement for health expense risk as equal to the loss in is basic own funds that would result from the following combination of instantaneous permanent changes:

  1. (1) an increase of 10% in the amount of expenses taken into account in the calculation of technical provisions; and
  2. (2) an increase of one percentage point in the expense inflation rate (expressed as a percentage) used for the calculation of technical provisions.

With regard to reinsurance obligations, a firm must apply those changes to its own expenses and, where relevant, to the expenses of the ceding undertakings.

3C15 Health Revision Risk Sub-Module

1.

A firm must calculate the capital requirement for health revision risk as equal to the loss in its basic own funds that would result from an instantaneous permanent increase of 4% in the amount of annuity benefits, only on annuity insurance and reinsurance obligations where the benefits payable under the underlying insurance policies could increase as a result of changes in inflation, the legal environment or the state of health of the person insured.

3C16 SLT Health Lapse Risk Sub-Module

1.

A firm must calculate the capital requirement for SLT health lapse risk as equal to the higher of the following capital requirements:

  1. (1) capital requirement for the risk of a permanent increase in SLT health lapse rates;
  2. (2) capital requirement for the risk of a permanent decrease in SLT health lapse rates; and
  3. (3) capital requirement for SLT health mass lapse risk.

2.

A firm must calculate the capital requirement for the risk of a permanent increase in SLT health lapse rates as equal to the loss in its basic own funds that would result from an instantaneous permanent increase of 50% in the exercise rates of the relevant options (as set out in 3C16.4 and 3C16.5), provided that the increased option exercise rates must not exceed 100% and the increase in option exercise rates must only apply to relevant options for which the exercise would result in an increase in technical provisions without the risk margin.

3.

A firm must calculate the capital requirement for the risk of a permanent decrease in SLT health lapse rates as equal to the loss in its basic own funds that would result from an instantaneous permanent decrease of 50% in the option exercise rates of the relevant options (as set out in 3C16.4 and 3C16.5), provided that, the decrease in option exercise rates must not exceed 20 percentage points and the decrease in option exercise rates must only apply to relevant options for which the exercise would result in a decrease in technical provisions without the risk margin.

4.

The relevant options for the purposes of 3C16.2 and 3C16.3 must be the following:

  1. (1) all legal or contractual policyholder rights to fully or partly terminate, surrender, decrease, restrict or suspend the insurance or reinsurance cover or permit the insurance policy to lapse; and
  2. (2) all legal or contractual policyholder rights to fully or partially establish, renew, increase, extend or resume the insurance or reinsurance cover.

For the purposes of 3C16.4(2), the change in the option exercise rate referred to in 3C16.2 and 3C16.3 should be applied to the rate reflecting that the relevant option is not exercised.

5.

In relation to reinsurance contracts, the relevant options for the purposes of 3C16.2 and 3C16.3 must be the following:

  1. (1) the rights referred to in 3C16.4 of the policyholders of the reinsurance contracts;
  2. (2) the rights set out in 3C16.4 of the policyholders of the contracts of insurance underlying the reinsurance contracts; and
  3. (3) where reinsurance contracts cover contracts of insurance or reinsurance contracts that will be written in the future, the right of the potential policyholders not to conclude those contracts of insurance or reinsurance contracts.

6.

A firm must calculate the capital requirement for SLT health mass lapse risk as equal to the loss in its basic own funds that would result from a combination of the following instantaneous events:

  1. (1) the discontinuance of 40% of the insurance policies for which discontinuance would result in an increase in technical provisions without the risk margin; and
  2. (2) where reinsurance contracts cover contracts of insurance or reinsurance contracts that will be written in the future, the decrease of 40% of the number of those future contracts of insurance or reinsurance contracts used in the calculation of technical provisions.

7.

A firm must apply the events referred to in 3C16.6 uniformly to all relevant contracts of insurance and reinsurance contracts and in respect of any such reinsurance contracts, the firm must apply the event referred to in 3C16.6(1) to the underlying contracts of insurance.

8.

For the purposes of determining the loss in its basic own funds under the event referred to in 3C16.6(1), the firm must base the calculation on the type of discontinuance that most negatively affects its basic own funds on a per policy basis.

9.

Where the highest of the capital requirements referred to in 3C16.1(1), (2) and (3) and the highest of the corresponding capital requirements calculated in accordance with 6.3(2) are not based on the same scenario, the capital requirement for lapse risk must be the capital requirement referred to in 3C16.1(1), (2) and (3) for which the underlying scenario results in the highest corresponding capital requirement calculated in accordance with 6.3(2).

3C17 Health Catastrophe Risk Sub-Module

1.

A firm must calculate the capital requirement for the health catastrophe risk sub-module in accordance with the following formula:

\[{SCR}_{healthCAT}=\sqrt{{SCR}_{ma}^2+{SCR}_{ac}^2+{SCR}_p^2}\]

where:

  1. (1) SCRma denotes the capital requirement for the mass accident risk sub-module;
  2. (2) SCRac denotes the capital requirement for the accident concentration risk sub-module; and
  3. (3) SCRp denotes the capital requirement for the pandemic risk sub-module.

3C18 Mass Accident Risk Sub-Module

1.

A firm must calculate the capital requirement for the mass accident risk sub-module in accordance with the following formula:

\[{SCR}_{ma}=\sqrt{\sum_{s}{SCR}_{\left(ma,s\right)}^2}\]

where:

  1. (1) the sum includes all countries set out in Annex XVI; and
  2. (2) SCR(ma, s) denotes the capital requirement for mass accident risk of country s.

2.

For all countries set out in Annex XVI, a firm must calculate the capital requirement for mass accident risk of a particular country s as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula:

\[L_{\left(ma,s\right)}=r_s\cdot\sum\nolimits_{e} x_e \cdot E_{\left(e,s\right)}\]

where:

  1. (1) rs denotes the ratio of persons affected by the mass accident in country s as set out in Annex XVI;
  2. (2) the sum includes the event types e set out in Annex XVI;
  3. (3) 𝑥e denotes the ratio of persons who will receive benefits attributable to event type e as a result of the accident as set out in Annex XVI; and
  4. (4) E(e, s) denotes the total value of benefits payable by the firm in respect of event type e in country s.

3.

For all event types set out in Annex XVI and all countries set out in Annex XVI, a firm must calculate its sum insured for a particular event type e in a particular country s in accordance with the following formula:

\[E_{\left(e,s\right)}=\sum\nolimits_{i}{SI}_{\left(e,i\right)}\]

where:

  1. (1) the sum includes all insured persons i of the firm who are insured against event type e and are inhabitants of country s; and
  2. (2) SI(e, i) denotes the value of the benefits payable by the firm for the insured person i in case of event type e.

4.

For the purposes of 3C18.3(2), a firm must calculate the value of the benefits as the sum insured or where the contract of insurance provides for recurring benefit payments the best estimate of the benefit payments in case of event type e. Where the benefits of a contract of insurance depend on the nature or extent of any injury resulting from event type e, the calculation of the value of the benefits must be based on the maximum benefits payable under the contract of insurance that are consistent with the event. For medical expense insurance obligations and medical expense reinsurance obligations the value of the benefits must be based on an estimate of the average amounts paid in case of event type e, assuming the insured person is disabled for the duration specified and taking into account the specific guarantees included within the obligations.

5.

Subject to 7.2, a firm may calculate the value of benefits payable for the insured person referred to in 3C18.3(2) based on homogenous risk groups, provided that the grouping of policies complies with Technical Provisions – Further Requirements 20.

3C19 Accident Concentration Risk Sub-Module

1.

A firm must calculate the capital requirement for the accident concentration risk sub-module in accordance with the following formula:

\[{SCR}_{ac}=\sqrt{\sum_{c}{SCR}_{\left(ac,c\right)}^2}\]

where:

  1. (1) the sum includes all countries c; and
  2. (2) SCR(ac, c) denotes the capital requirement for accident concentration risk of country c.

2.

For all countries a firm must calculate the capital requirement for accident concentration risk of country c as equal to the loss in is basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula:

\[L_{\left(ac,c\right)}=C_c\cdot\sum\nolimits_{c}{x_e\cdot{CE}_{\left(e,c\right)}}\]

where:

  1. (1) Cc denotes the largest accident risk concentration of the firm in country c;
  2. (2) the sum includes the event types e set out in Annex XVI;
  3. (3) 𝑥e denotes the ratio of persons who will receive benefits attributable to event type e as a result of the accident as set out in Annex XVI; and
  4. (4) CE(e, c) denotes the average value of benefits payable by the firm for event type e for the largest accident risk concentration in country c.

3.

For all countries, a firm must calculate the highest accident risk concentration of a firm in country c as equal to the highest number of persons for which all of the following requirements are met:

  1. (1) the firm has a workers’ compensation insurance obligation or a workers’ compensation reinsurance obligation or a group income protection insurance obligation or a group income protection reinsurance obligation in relation to each of the persons;
  2. (2) the obligations in relation to each of the persons cover at least one of the events set out in Annex XVI; and
  3. (3) the persons are working in the same building, which is situated in country c.

4.

For all event types and countries, a firm must calculate its average sum insured for event type e for the largest accident risk concentration in country c in accordance with the following formula:

\[{CE}_{\left(e,c\right)}=\frac{1}{N_e}\sum\nolimits_{i=1}^{Ne}{SI}_{\left(e,i\right)}\]

where:

  1. (1) Ne denotes the number of insured persons who are insured by the firm against event type e and who belong to the largest accident risk concentration of the firm in country c;
  2. (2) the sum includes all the insured persons referred to in (1); and
  3. (3) SI(e, i) denotes the value of the benefits payable by the firm for the insured person i in case of event type e.

5.

For the purposes of 3C19.4(3), a firm must calculate the value of the benefits as the sum insured or where the contract of insurance provides for recurring benefit payments the best estimate of the benefit payments in case of event type e. Where the benefits of an insurance policy depend on the nature or extent of the injury resulting from event type e, the calculation of the value of the benefits must be based on the maximum benefits payable under the policy, that are consistent with the event. For medical expense insurance obligations and medical expense reinsurance obligations the value of the benefits must be based on an estimate of the average amounts paid in case of event type e, assuming the insured person is disabled for the duration specified and taking into account the specific guarantees included within the obligations.

6.

Subject to 7.2, a firm may calculate the value of the benefits referred to in 3C19.4(3) based on homogenous risk groups, provided that the grouping of policies complies with the requirements set out in Technical Provisions – Further Requirements 20.

3C20 Pandemic Risk Sub-Module

1.

A firm must calculate the capital requirement for the pandemic risk sub-module as equal to the loss in its basic own funds that would result from an instantaneous loss of an amount that, without deduction of the amounts recoverable from reinsurance contracts and special purpose vehicles, is calculated in accordance with the following formula:

\[L_p=0.000075\cdot E+0.4\cdot\sum\nolimits_{c}{N_c\cdot M_c}\]

where:
  1. (1) E denotes the income protection pandemic exposure of the firm;
  2. (2) the sum includes all countries c;
  3. (3) Nc denotes the number of insured persons of the firm who meet all of the following requirements:
    1. (a) the insured persons are inhabitants of country c; and
    2. (b) the insured persons are covered by a contract of insurance that includes medical expense insurance obligations or medical expense reinsurance obligations, other than workers’ compensation insurance obligations or workers’ compensation reinsurance obligations, that cover medical expenses resulting from an infectious disease; and
  4. (4) Mc denotes the expected average amount payable by the firm per insured person of country c in case of a pandemic.

2.

A firm must calculate its income protection pandemic exposure in accordance with the following formula:

\[E=\sum\nolimits_{i} E_i\]

where:
  1. (1) the sum includes all insured persons i covered by a contract of insurance that includes income protection insurance obligations or income protection reinsurance obligations other than workers’ compensation insurance obligations or workers’ compensation reinsurance obligations;
  2. (2) Ei denotes the value of the benefits payable by the firm for the insured person i in case of a permanent work disability caused by an infectious disease. The value of the benefits must be the sum insured or, where the contract of insurance provides for recurring benefit payments, the best estimate of the benefit payments assuming that the insured person is permanently disabled and will not recover.

3.

For all countries, a firm must calculate the expected average amount payable by the firm per insured person of a particular country c in case of a pandemic in accordance with the following formula:

\[M_c=\sum\nolimits_{h} H_h\cdot{CH}_{\left(h,c\right)}\]

where:

  1. (1) the sum includes the types of healthcare utilisation h set out in Annex XVI;
  2. (2) Hh denotes the ratio of insured persons with clinical symptoms utilising healthcare type h as set out in Annex XVI; and
  3. (3) CH(h, c) denotes the best estimate of the amounts payable by the firm for an insured person in country c in relation to medical expense insurance obligations or medical expense reinsurance obligations, other than workers’ compensation insurance obligations or workers’ compensation reinsurance obligations, for healthcare utilisation type h in the event of a pandemic.

3D

Market Risk Module

3D1 Lists Of Regional Governments And Local Authorities

1.

A firm must treat exposures to the Scottish Government, the Welsh Government and the Northern Ireland Executive as exposures to the central government of the UK for the calculation of the market risk module of the standard formula.

Qualifying Infrastructure Investments

3D2 Qualifying Infrastructure Investments

1.

The requirements that must be met for an investment in an infrastructure entity to constitute a qualifying infrastructure investment are as follows:

  1. (1) the cash-flows generated by the infrastructure assets allow for all financial obligations to be met under sustained stresses that are relevant for the risks of the project;
  2. (2) the cash-flows that the infrastructure entity generates for debt providers and equity investors are predictable;
  3. (3) the infrastructure assets and infrastructure entity are governed by a regulatory or contractual framework that provides debt providers and equity investors with a high degree of protection including the following:
    1. (a) the contractual framework must include provisions that effectively protect debt providers and equity investors against losses resulting from the termination of the project by the party which agrees to purchase the goods or services provided by the infrastructure project, unless one of the following requirements is met:
      1. (i) the revenues of the infrastructure entity are funded by payments from a large number of users; or
      2. (ii) the revenues are subject to a rate-of-return regulation; and
    2. (b) the infrastructure entity has sufficient reserve funds or other financial arrangements to cover the contingency funding and working capital requirements of the project.
  4. (4) where investments are in bonds or loans, this contractual framework must also include the following:
    1. (a) debt providers have security or the benefit of security to the extent permitted by applicable law in all assets and contracts that are critical to the operation of the project;
    2. (b) the use of net operating cash-flows after mandatory payments from the project for purposes other than servicing debt obligations is restricted; and
    3. (c) restrictions on activities that may be detrimental to debt providers, including that new debt cannot be issued without the consent of existing debt providers in the form agreed with them, unless such new debt issuance is permitted under the documentation for the existing debt;
  5. (5) notwithstanding (4)(a), for investments in bonds or loans, where a firm can demonstrate that security in all assets and contracts is not essential for debt providers to effectively protect or recover the vast majority of their investment, other security mechanisms may be used, provided they comprise at least one of the following:
    1. (a) pledge of shares;
    2. (b) step-in rights;
    3. (c) lien over bank accounts;
    4. (d) control over cash-flows; or
    5. (e) provisions for assignment of contracts;
  6. (6) where investments are in bonds or loans, the firm is able to hold the investment to maturity and, subject to 3D2.3, has notified the PRA of this in writing before it treats an investment as a qualifying infrastructure investment;
  7. (7) where investments are in bonds or loans for which a credit assessment by a nominated external credit assessment institution is not available, the investment instrument and other pari passu instruments are senior to all other claims other than statutory claims and claims from liquidity facility providers, trustees and derivatives counterparties; and
  8. (8) where investments are in equities, or bonds or loans for which a credit assessment by a nominated external credit assessment institution is not available, the following criteria are met:
    1. (a) the infrastructure assets and infrastructure entity are located in the OECD;
    2. (b) where the infrastructure project is in the construction phase the following criteria must be fulfilled by the equity investor, or where there is more than one equity investor, the following criteria must be fulfilled by a group of equity investors as a whole:
      1. (i) the equity investors have a history of successfully overseeing infrastructure projects and the relevant expertise;
      2. (ii) the equity investors have a low risk of default, or there is a low risk of material losses for the infrastructure entity as a result of their default; and
      3. (iii) the equity investors are incentivised to protect the interests of investors;
    3. (c) where there are construction risks, safeguards exist to ensure completion of the project according to the agreed specification, budget or completion date;
    4. (d) where operating risks are material, they are properly managed;
    5. (e) the infrastructure entity uses tested technology and design;
    6. (f) the capital structure of the infrastructure entity allows it to service its debt;
    7. (g) the refinancing risk for the infrastructure entity is low; and
    8. (h) the infrastructure entity uses derivatives only for risk-mitigation purposes.

2.

For the purposes of 3D2.1(2), a firm must not treat the cash-flows generated for debt providers and equity investors as predictable unless all except an immaterial part of the revenues satisfy the following requirements:

  1. (1) one of the following criteria is met:
    1. (a) the revenues are availability-based;
    2. (b) the revenues are subject to a rate-of-return regulation;
    3. (c) the revenues are subject to a take-or-pay contract; or
    4. (d) the level of output or the usage and the price must independently meet one of the following criteria:
      1. (i) it is regulated;
      2. (ii) it is contractually fixed; or
      3. (iii) it is sufficiently predictable as a result of low demand risk; and
  2. (2) where the revenues of the infrastructure entity are not funded by payments from a large number of users, the party which agrees to purchase the goods or services provided by the infrastructure project entity must be one of the following:
    1. (a) an entity listed in 3D24.2;
    2. (b) a body listed in 3D1;
    3. (c) an entity with an external credit assessment institution rating with a credit quality step of at least 3; or
    4. (d) an entity that is replaceable without a significant change in the level and timing of revenues.
    5.  

3.

Where a firm treated an investment as a qualifying infrastructure investment in accordance with Article 164a of Commission Delegated Regulation (EU) 2015/35 immediately before 31 December 2024 and from 31 December 2024 treats that investment as a qualifying infrastructure investment, the firm must notify in writing the PRA by 31 January 2025.

3D3 Qualifying Infrastructure Corporate Investments

1.

The requirements that must be met for an investment in an infrastructure entity to constitute a qualifying infrastructure corporate investment are as follows:

  1. (1) the substantial majority of the infrastructure entity’s revenues is derived from owning, financing, developing or operating infrastructure assets located in the OECD;
  2. (2) the revenues generated by the infrastructure assets satisfy one of the criteria set out in 3D2.2(1);
  3. (3) where the revenues of the infrastructure entity are not funded by payments from a large number of users, the party which agrees to purchase the goods or services provided by the infrastructure entity must be one of the entities listed in 3D2.2(2);
  4. (4) the revenues must be diversified in terms of activities, location, or payers, unless the revenues are subject to a rate-of-return regulation in accordance with 3D2.1(3)(a)(ii) or a take-or-pay contract or the revenues are availability based;
  5. (5) where investments are in bonds or loans, the firm is able to hold the investment to maturity and, subject to 3D3.2, has notified the PRA of this in writing before it treats an investment as a qualifying infrastructure corporate investment;
  6. (6) where no credit assessment from a nominated external credit assessment institution is available for the infrastructure entity:
    1. (a) the capital structure of the infrastructure entity must allow it to service all its debt under conservative assumptions based on an analysis of the relevant financial ratios; and
    2. (b) the infrastructure entity must have been active for at least three years or, in the case of an acquired business, it must have been in operation for at least three years; and
  7. (7) where a credit assessment from a nominated external credit assessment institution is available for the infrastructure entity, such credit assessment has a credit quality step between 0 and 3.

2.

Where a firm treated an investment as a qualifying infrastructure corporate investment in accordance with Article 164b of Commission Delegated Regulation (EU) 2015/35 immediately before 31 December 2024 and from 31 December 2024 treats that investment as a qualifying infrastructure corporate investment, the firm must notify the PRA in writing by 31 January 2025.

Interest Rate Risk Sub-Module

3D4 General Provisions

1.

A firm must calculate the capital requirement for interest-rate risk as equal to the higher of the following:

  1. (1) the sum, over all currencies, of the capital requirements for the risk of an increase in the term structure of interest rates as set out in 3D5; and
  2. (2) the sum, over all currencies, of the capital requirements for the risk of a decrease in the term structure of interest rates as set out in 3D6.

2.

Where the higher of the capital requirements referred to in 3D4.1(1) and (2) and the higher of the corresponding capital requirements calculated in accordance with 6.3(2) are not based on the same scenario, the capital requirement for interest-rate risk must be the capital requirement referred to in 3D4.1(1) and (2) for which the underlying scenario results in the highest corresponding capital requirement calculated in accordance with 6.3(2).

3D5 Increase In The Term Structure Of Interest Rates

1.

A firm must calculate the capital requirement for the risk of an increase in the term structure of interest rates for a given currency as equal to the loss in its basic own funds that would result from an instantaneous increase in basic risk-free interest rates for that currency at different maturities in accordance with the following table:

Maturity
(in years)

Increase
1 70%
2 70%
3 64%
4 59%
5 55%
6 52%
7 49%
8 47%
9 44%
10 42%
11 39%
12 37%
13 35%
14 34%
15 33%
16 31%
17 30%
18 29%
19 27%
20 26%
90 20%

2.

For maturities not specified in the table above, the value of the increase must be linearly interpolated, provided that:

  1. (1) for maturities shorter than 1 year, the increase must be 70%; and
  2. (2) for maturities longer than 90 years, the increase must be 20%.

3.

In any case, the increase of basic risk-free interest rates at any maturity must be at least one percentage point.

4.

The impact of the increase in the basic relevant risk-free rate term structure on the value of participations in financial institutions and credit institutions as referred to in Own Funds 3K.6 must only be taken into account on the value of the participations that are not deducted from own funds pursuant to Own Funds 3K and the part deducted from own funds must only be taken into account to the extent that such impact increases the basic own funds.

3D6 Decrease In The Term Structure Of Interest Rates

1.

A firm must calculate the capital requirement for the risk of a decrease in the term structure of interest rates for a given currency as equal to the loss in its basic own funds that would result from an instantaneous decrease in basic risk-free interest rates for that currency at different maturities in accordance with the following table:

Maturity
(in years)
Decrease
1 75%
2 65%
3 56%
4 50%
5 46%
6 42%
7 39%
8 36%
9 33%
10 31%
11 30%
12 29%
13 28%
14 28%
15 27%
16 28%
17 28%
18 28%
19 29%
20 29%
90 20%

2.

For maturities not specified in the table above, the value of the decrease must be linearly interpolated, provided that:

  1. (1) for maturities shorter than 1 year, the decrease must be 75%; and
  2. (2) for maturities longer than 90 years, the decrease must be 20%.

3.

Notwithstanding 3D6.1 and 3D6.2, for negative basic risk-free interest rates the decrease must be nil.

4.

The impact on the value of participations as referred to in Own Funds 3K.6 in financial institutions and credit institutions of the decrease in the basic relevant risk-free interest rate term structure must only be taken into account on the value of the participations that are not deducted from own funds pursuant to Own Funds 3K and the part deducted from own funds must only be taken into account to the extent that such impact increases the basic own funds.

Equity Risk Sub-Module

3D7 General Provisions

1.

The equity risk sub-module must include a risk sub-module for type 1 equities, a risk sub-module for type 2 equities, a risk sub-module for qualifying infrastructure equities and a risk sub-module for qualifying infrastructure corporate equities.

2.

A firm must treat as type 1 equities:

  1. (1) those listed in 3D7.8; and
  2. (2) equities listed in regulated markets in countries which are members of the OECD, or traded on multilateral trading facilities, as defined in Article 3 of the RAO, whose registered office or head office is in an EU Member State.

3.

A firm must treat as type 2 equities:

  1. (1) equities other than those referred to in 3D7.2, commodities and other alternative investments; and
  2. (2) all assets other than those covered in the interest-rate risk sub-module, the property risk sub-module or the spread risk sub-module, including the assets and indirect exposures referred to in 2.3(1) and (2) where a look-through approach is not possible and the firm does not make use of the provisions in 2.3(3) and (4).

4.

A firm must treat as qualifying infrastructure equities equity investments in infrastructure entities that meet the requirements set out in 3D2.

5.

A firm must treat as qualifying infrastructure corporate equities equity investments in infrastructure entities that meet the requirements set out in 3D3.

6.

A firm must calculate the capital requirement for equity risk in accordance with the following formula:

\[{SCR}_{equity}=\sqrt{{SCR}_{equ1}^2+2\cdot0.75\cdot{SCR}_{equ1}\cdot\left({SCR}_{equ2}+{SCR}_{quinf}+{SCR}_{quinfc}\right)+\left({SCR}_{equ2}+{SCR}_{quinf}+{SCR}_{quinfc}\right)^2}\]

where:
  1. (a) SCRequ1 denotes the capital requirement for type 1 equities;
  2. (b) SCRequ2 denotes the capital requirement for type 2 equities;
  3. (c) SCRquinf denotes the capital requirement for qualifying infrastructure equities; and
  4. (d) SCRquinfc denotes the capital requirement for qualifying infrastructure corporate equities.

7.

The impact of the instantaneous decreases set out in 3D9 and 3D10 on the value of participations as referred to in Own Funds 3K.6 in financial institutions and credit institutions must only be taken into account on the value of the participations that are not deducted from own funds pursuant to Own Funds 3K.

8.

A firm must treat the following equities as type 1:

  1. (1) equities, other than qualifying infrastructure equities or qualifying infrastructure corporate equities, held within collective investment undertakings which are qualifying social entrepreneurship funds as referred to in Article 3(b) of Regulation (EU) No 346/2013 of the European Parliament and of the Council where the look-through approach is possible for all exposures within the collective investment undertakings, or units or shares of those funds where the look-through approach is not possible for all exposures within the collective investment undertakings;
  2. (2) equities, other than qualifying infrastructure equities or qualifying infrastructure corporate equities, held within collective investment undertakings which are qualifying venture capital funds as referred to in Article 3(b) of Regulation (EU) No 345/2013 of the European Parliament and of the Council where the look-through approach is possible for all exposures within the collective investment undertakings, or units or shares of those funds where the look-through approach is not possible for all exposures within the collective investment undertakings;
  3. (3) as regards closed-ended alternative investment funds which are established in the UK or, if they are not established in the UK, which are marketed in the UK in accordance with regulations 49, 50 and 54 of the Alternative Investment Fund Managers Regulations 2013/1773 in the form such regulations will take when regulation 3 and Schedule 1 of the Alternative Investment Fund Managers (Amendment) Regulations 2013/1797 come into force and which, in either case, have no leverage in accordance with the commitment method set out in Article 8 of Commission Delegated Regulation (EU) No 231/2013:
    1. (a) equities, other than qualifying infrastructure equities or qualifying infrastructure corporate equities, held within such funds where the look-through approach is possible for all exposures within the alternative investment funds; and
    2. (b) units or shares of such funds where the look-through approach is not possible for all exposures within the alternative investment funds; and
  4. (4) qualifying unlisted equity portfolios as defined in 3D8.

3D8 Qualifying Unlisted Equity Portfolios

1.

For the purposes of 3D7.8(4), a qualifying unlisted equity portfolio is a set of equity investments that meets all of the following requirements:

  1. (1) the set of investments consists solely of investments in the ordinary shares of companies;
  2. (2) the ordinary shares of each of the companies concerned are not listed in any regulated market;
  3. (3) each company has its head office in the UK;
  4. (4) more than 50% of the annual revenue of each company is denominated in currencies of countries which are members of the OECD;
  5. (5) more than 50% of the staff employed by each company have their principal place of work in the UK;
  6. (6) each company fulfils at least one of the following requirements for each of the last three financial years ending prior to the date on which the SCR is being calculated:
    1. (a) the annual turnover of the company exceeds GBP 8,800,000;
    2. (b) the balance sheet total of the company exceeds GBP 8,800,000; or
    3. (c) the number of staff employed by the company exceeds 50;
  7. (7) the value of the investment in each company represents no more than 10% of the total value of the set of investments;
  8. (8) none of the companies is a UK Solvency II undertaking, a credit institution, an investment firm, a financial institution, an alternative investment fund manager, a UCITS management company, an institution for occupational retirement provision or a non-regulated undertaking carrying out financial activities; and
  9. (9) the beta of the set of investments does not exceed 0.796.

2.

For the purposes of 3D8.1(9), the beta of a set of investments is the average of the betas for each of the investments in that set of investments, weighted by the book values of those investments and a firm must determine the beta of an investment in a company in accordance with the following formula:

\[\beta=0.9478-0.0034\cdot\ GM+0.0139\cdot\frac{Debt}{CFO}-0.0015\cdot\ ROCE\]

where:

  1. (a) β is the beta of the equity investment in the company;
  2. (b) GM is the average gross margin for the company over the last five financial years ending prior to the date on which the SCR is being calculated;
  3. (c) Debt is the total debt of the company at the end of the most recent financial year for which figures are available;
  4. (d) CFO is the average net cash-flow for the company from operations over the last five financial years ending prior to the date on which the SCR is being calculated; and
  5. (e) ROCE is the average return on common equity for the company over the last five financial years ending prior to the date on which the SCR is being calculated. Common equity for these purposes shall mean capital and reserves as referred to in Schedule 1 to the Large and Medium-sized Companies and Groups (Accounts and Reports) Regulations 2008/410 as amended from time to time excluding preference shares and the related share premium account.

3D9 Standard Equity Risk Sub-Module

1.

A firm must calculate the capital requirement for type 1 equities referred to in 3D7 as equal to the loss in its basic own funds that would result from the following instantaneous decreases:

  1. (1) an instantaneous decrease equal to 22% in the value of type 1 equity investments in related undertakings where these investments are of a strategic nature, in accordance with 3D10;
  2. (2) an instantaneous decrease equal to 22% in the value of type 1 equity investments that are treated as long-term equity investments in accordance with 3D11; and
  3. (3) an instantaneous decrease equal to the sum of 39% and the symmetric adjustment, in the value of type 1 equities other than those referred to in (1) and (2).

2.

A firm must calculate the capital requirement for type 2 equities referred to in 3D7 as equal to the loss in its basic own funds that would result from the following instantaneous decreases:

  1. (1) an instantaneous decrease equal to 22% in the value of type 2 equity investments in related undertakings where these investments are of a strategic nature, in accordance with 3D10;
  2. (2) an instantaneous decrease equal to 22% in the value of type 2 equity investments that are treated as long-term equity investments in accordance with 3D11; and
  3. (3) an instantaneous decrease equal to the sum of 49% and the symmetric adjustment, in the value of type 2 equities other than those referred to in (1) and (2).

3.

A firm must calculate the capital requirement for qualifying infrastructure equities referred to in 3D7 as equal to the loss in its basic own funds that would result from the following instantaneous decreases:

  1. (1) an instantaneous decrease equal to 22% in the value of qualifying infrastructure equity investments in related undertakings, where those investments are of a strategic nature, in accordance with 3D10;
  2. (2) an instantaneous decrease equal to 22% in the value of qualifying infrastructure equity investments that are treated as long-term equity investments in accordance with 3D11; and
  3. (3) an instantaneous decrease equal to the sum of 30% and 77% of the symmetric adjustment in the value of qualifying infrastructure equity investments, other than those referred to in (1) and (2).

4.

A firm must calculate the capital requirement for qualifying infrastructure corporate equities referred to in 3D7 as equal to the loss in its basic own funds that would result from the following instantaneous decreases:

  1. (1) an instantaneous decrease equal to 22% in the value of qualifying infrastructure corporate equity investments in related undertakings where those investments are of a strategic nature, in accordance with 3D10;
  2. (2) an instantaneous decrease equal to 22% in the value of qualifying infrastructure corporate equity investments that are treated as long-term equity investments in accordance with 3D11; and
  3. (3) an instantaneous decrease equal to the sum of 36% and 92% of the symmetric adjustment in the value of qualifying infrastructure corporate equities, other than those referred to in (1) and (2).

3D10 Strategic Equity Investments

1.

For the purposes of 3D9.1(1), 3D9.2(1), 3D9.3(1) and 3D9.4(1), equity investments of a strategic nature means equity investments for which the firm holding a participation demonstrates the following:

  1. (1) that the value of the equity investment is likely to be materially less volatile for the following 12 months than the value of other equities over the same period as a result of both the nature of the investment and the influence exercised by the firm holding a participation in the related undertaking; and
  2. (2) that the nature of the investment is strategic, taking into account all relevant factors, including:
    1. (a) the existence of a clear decisive strategy to continue holding the participation for a long period;
    2. (b) the consistency of the strategy referred to in (a) with the main policies guiding or limiting the actions of the undertaking;
    3. (c) the firm’s ability to continue holding the participation in the related undertaking;
    4. (d) the existence of a durable link; and
    5. (e) where the firm holding a participation is part of a group, the consistency of such strategy with the main policies guiding or limiting the actions of the group.

3D11 Long-Term Equity Investments

1.

A firm may treat a sub-set of equity investments as long-term equity investments if all of the following requirements are met and, subject to 3D11.4, the firm has notified the PRA in writing that it meets these requirements:

  1. (1) the sub-set of equity investments as well as the holding period of each equity investment within the sub-set are clearly identified;
  2. (2) the sub-set of equity investments is included within a portfolio of assets which is assigned to cover the best estimate of a portfolio of insurance or reinsurance obligations corresponding to one or several clearly identified businesses, and the firm maintains that assignment over the lifetime of the obligations;
  3. (3) the portfolio of insurance or reinsurance obligations, and the assigned portfolio of assets referred to in (2) are identified, managed and organised separately from the other activities of the firm, and the assigned portfolio of assets cannot be used to cover losses arising from other activities of the firm;
  4. (4) the technical provisions within the portfolio of insurance or reinsurance obligations referred to in (2) only represent a part of the total technical provisions of the firm;
  5. (5) the average holding period of equity investments in the sub-set exceeds five years, or where the average holding period of the sub-set is lower than five years, the firm does not sell any equity investments within the sub-set until the average holding period exceeds five years;
  6. (6) the sub-set of equity investments consists only of equities that are listed in the UK or of unlisted equities of companies that have their head offices in UK;
  7. (7) the solvency and liquidity position of the firm, as well as its strategies, processes and reporting procedures with respect to asset-liability management, are such as to ensure, on an ongoing basis and under stressed conditions, that it is able to avoid forced sales of each equity investments within the sub-set for at least 10 years; and
  8. (8) the risk management, asset-liability management and investment policies of the firm reflects the firm’s intention to hold the sub-set of equity investments for a period that is compatible with the requirement of (5) and its ability to meet the requirement of (7).

2.

Where equities are held within collective investment undertakings or within alternative investment funds that meet the requirements of 3D7.8(1) to (3), the requirements set out in 3D11.1 may be assessed at the level of the funds and not of the underlying assets held within those funds.

3.

A firm that treats a sub-set of equity investments as long-term equity investments in accordance with 3D11.1 must not revert back to an approach that does not include long-term equity investments, and if the firm is no longer able to comply with the requirements set out in 3D11.1, it must immediately inform the PRA in writing and cease to apply 3D9.1(2), 3D9.2(2), 3D9.3(2) and 3D9.4(2) to any of its equity investments for a period of 36 months.

4.

Where a firm treated a sub-set of equity investments as long-term equity investments in accordance with Article 171a of Commission Delegated Regulation (EU) 2015/35 immediately before 31 December 2024 and from 31 December 2024 treats that sub-set of equity investments as long-term equity investments, the firm must notify the PRA in writing by 31 January 2025.

3D12 Symmetric Adjustment Of The Equity Capital Charge

1.

The equity index upon which the symmetric adjustment to the standard equity capital charge is to be based must comply with all of the following requirements:

  1. (1) the equity index measures the market price of a diversified portfolio of equities which is representative of the nature of equities typically held by UK Solvency II undertakings;
  2. (2) the level of the equity index is publicly available; and
  3. (3) the frequency of published levels of the equity index is sufficient to enable the current level of the index and its average value over the last 36 months to be determined.

2.

Subject to 3D12.4, a firm must calculate the symmetric adjustment in accordance with the following formula:

\[SA = \frac{1}{2} \cdot \left( \frac{CI - AI}{AI} - 8\% \right)\]

where:

  1. (a) CI denotes the current level of the equity index; and
  2. (b) AI denotes the weighted average of the daily levels of the equity index over the last 36 months.

3.

For the purposes of calculating the weighted average of the daily levels of the equity index, the weights for all daily levels must be equal and the days during the last 36 months in respect of which the index was not determined must not be included in the average.

4.

The symmetric adjustment must not be lower than -10% or higher than 10%.

3D13 Calculation Of The Equity Index

1.

For the purpose of this Chapter, the following definitions apply:

  1. (1) ‘last level’ means the last value of the equity index for the day of reference published by the provider of the equity index; and
  2. (2) ‘working day’ means every day other than Saturdays and Sundays.

2.

The level of the equity index referred to in 3D12 must be determined for each working day.

3.

The level of the equity index for a particular working day must be the sum of the contributions of all equity indices included in 3D14 on that working day.

4.

For each of the equity indices set out in 3D14, its contribution for a particular working day must be the product of its normalised level for the working day and the respective weight for the equity index as set out in 3D14.

5.

For each of the equity indices set out in 3D14, its normalised level for a particular working day must be its last level on that working day divided by its last level on the first day of the 36 month period ending on the working day for which the level of the equity index as defined in 3D12.1 is being calculated, provided that where the last level of an equity index is not available for a specific day, the most recent last level before that day must be used.

3D14 Calculation Of The Equity Index

1.

The equity indices referred to in 3D13 are as follows:

Equity indices (Price indices) Weights
FTSE All-Share Index 0.48
Nikkei 225 0.07
S&P 500 0.30
FTSE Developed Europe ex UK (local currency) 0.15

Property Risk Sub-Module

3D15 Property Risk Sub-Module

1.

A firm must calculate the capital requirement for property risk as equal to the loss in its basic own funds that would result from an instantaneous decrease of 25% in the value of immovable property.

Spread Risk Sub-Module

3D16 Scope Of The Spread Risk Sub-Module

1.

A firm must calculate the capital requirement for spread risk in accordance with the following formula:

\[{SCR}_{spread}={SCR}_{bonds}+{SCR}_{securitisation}+{SCR}_{cd}\]

where:

  1. (a) SCRbonds denotes the capital requirement for spread risk on bonds and loans;
  2. (b) SCRsecuritisation denotes the capital requirement for spread risk on securitisation positions; and
  3. (c) SCRcd denotes the capital requirement for spread risk on credit derivatives.

3D17 Spread Risk On Bonds And Loans

1.

A firm must calculate the capital requirement for spread risk on bonds and loans SCRbonds as equal to the loss in its basic own funds that would result from an instantaneous relative decrease of stressi in the value of each bond or loan i other than mortgage loans that meet the requirements in 3E3, including bank deposits other than cash at bank referred to in 3.14(2).

2.

A firm must calculate the risk factor stressi by reference to the modified duration of the bond or loan i denominated in years (duri) provided that duri must never be lower than 1. For variable interest rate bonds or loans, duri must be equivalent to the modified duration of a fixed interest rate bond or loan of the same maturity and with coupon payments equal to the forward interest rate.

3.

A firm must assign bonds or loans for which a credit assessment by a nominated external credit assessment institution is available a risk factor stressi depending on the credit quality step and the modified duration duri of the bond or loan i according to the following table:

Credit quality step  0  1  2  3  4  5 and 6
Duration
(duri)
stressi  ai  bi  ai  bi  ai  bi  ai  bi   ai  bi  ai  bi
up to 5 \[b_i\cdot {dur}_i\]  —  0.9%  — 1.1%  — 1.4%  —  2.5%  —  4.5%  —  7.5%
More than 5 and up to 10 \[a_i+b_i\cdot({dur}_i-5)\]  4.5%  0.5%  5.5%  0.6%   7.0%  0.7%  12.5%  1.5%  22.5%  2.5% 37.5%  4.2%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\]  7.0%  0.5%  8.4% 0.5% 10.% 0.5%  20.0% 1.0% 35.0% 1.8% 58.5% 0.5%
More than 15 and up to  20 \[a_i+b_i\cdot({dur}_i-15)\]  9.5% 0.5%  10.9%  0.5%   13.0% 0.5%  25.0%  1.0%   44.0% 0.5%  61.0%  0.5%
More than 20  \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\]  12.0%  0.5%  13.4%  0.5%  15.5%  0.5%  30.0% 0.5%   46.5%  0.5%  63.5%   0.5%

4.

A firm must assign bonds and loans for which a credit assessment by a nominated external credit assessment institution is not available and for which debtors have not posted collateral by way of a collateral arrangement that meets the criteria set out in 3G8 a risk factor stressi depending on the duration duri of the bond or loan i according to the following table:

Duration (duri) stressi
up to 5 \[3\%\cdot {dur}_i\]
More than 5 and up to 10 \[15+1.7\%\cdot {(dur}_i-5)\]
More than 10 and up to 20 \[23.5\%+1.2\%\cdot ({dur}_i-10)\]
More than 20 \[\textrm{min}(35.5\%+0.5\%\cdot \left({dur}_i-20\right);1)\]

5.

Notwithstanding 3D17.4, bonds and loans that are assigned to a credit quality step in accordance with 3D18.1 or 3D18.2 or 3D20.1 must be assigned a risk factor stressi depending on the credit quality step and the modified duration durI of the bond or loan i assigned in accordance with the table set out in 3D17.3.

6.

A firm must assign bonds and loans for which a credit assessment by a nominated external credit assessment institution is not available and for which debtors have posted collateral by way of a collateral arrangement, where the collateral of those bonds and loans meet the criteria set out in 3G8, a risk factor stressi according to the following:

  1. (1) where the risk-adjusted value of collateral is higher than or equal to the value of the bond or loan i, stressi must be equal to half of the risk factor that would be determined in accordance with 3D17.4;
  2. (2) where the risk-adjusted value of collateral is lower than the value of the bond or loan i, and where the risk factor determined in accordance with 3D17.4 would result in a value of the bond or loan i that is lower than the risk-adjusted value of the collateral, stressi must be equal to the average of the following:
    1. (a) the risk factor determined in accordance with 3D17.4; and
    2. (b) the difference between the value of the bond or loan i and the risk-adjusted value of the collateral, divided by the value of the bond or loan i; and
  3. (3) where the risk-adjusted value of collateral is lower than the value of the bond or loan i, and where the risk factor determined in accordance with 3D17.4 would result in a value of the bond or loan i that is higher than or equal to the risk-adjusted value of the collateral, stressi must be determined in accordance with 3D17.4.

A firm must calculate the risk-adjusted value of the collateral in accordance with 7.34, 3E10 and 3E11.

7.

A firm must take into account the impact of the instantaneous decrease in the value of participations in financial institutions and credit institutions, as referred to in Own Funds 3K.6, only on the value of the participations that are not deducted from own funds pursuant to Own Funds 3K.

3D18 Internal Assessment Of Credit Quality Steps Of Bonds And Loans

1.

A firm may assign a bond or loan for which a credit assessment by a nominated external credit assessment institution is not available and for which debtors have not posted collateral by way of a collateral arrangement that meets the criteria set out in 3G8 to credit quality step 2 if all of the criteria set out in 3D18.3 and 3D18.4 are met with respect to the bond or loan.

2.

A firm may assign a bond or loan for which a credit assessment by a nominated external credit assessment institution is not available and for which debtors have not posted collateral by way of a collateral arrangement that meets the criteria set out in 3G8, other than a bond or loan assigned to credit quality step 2 under 3D18.1, to credit quality step 3 if all of the criteria set out in 3D18.3 and 3D18.5 are met with respect to the bond or loan.

3.

The criteria in this rule are as follows:

  1. (1) the firm’s own internal credit assessment of the bond or loan meets the requirements listed in 3D19;
  2. (2) the bond or loan is issued by a company which does not belong to the same corporate group as the firm;
  3. (3) the bond or loan is not issued by a company which is a UK Solvency II undertaking, an infrastructure entity, a credit institution, an investment firm, a financial institution, an alternative investment fund manager, a UCITS management company, an institution for occupational retirement provision or a non-regulated undertaking carrying out financial activities;
  4. (4) no claims on the issuing company of the bond or loan rank senior to the bond or loan, except for the following claims:
    1. (a) statutory claims and claims from liquidity facility providers provided that those statutory claims and claims from liquidity facility providers are in aggregate not material relative to the overall senior debt of the issuing company;
    2. (b) claims from trustees; and
    3. (c) claims from derivatives counterparties;
  5. (5) the bond or loan provides a fixed redemption payment on or before the date of maturity, in addition to regular fixed or floating rate interest payments;
  6. (6) the contractual terms and conditions of the bond or loan provide for the following:
    1. (a) the borrower is obliged to provide audited financial data to the lender at least annually;
    2. (b) the borrower is obliged to notify the lender of any events that could materially affect the credit risk of the bond or loan;
    3. (c) the borrower is not entitled to change the terms and conditions of the bond or loan unilaterally, nor to make other changes to its business that would materially affect the credit risk of the bond or loan;
    4. (d) the issuer is prohibited from issuing new debt without the prior agreement of the firm;
    5. (e) what constitutes a default event is defined in a way that is specific to the issue and the issuer; and
    6. (f) what is to happen on a change of control; and
  7. (7) the bond or loan is issued by a company that meets all of the following criteria:
    1. (a) the company is a limited liability company;
    2. (b) the company has its head office in the UK;
    3. (c) more than 50% of the annual revenue of the company is denominated in currencies of countries which are members of the OECD;
    4. (d) the company has operated without any credit event over at least the last 10 years;
    5. (e) at least one of the following requirements is fulfilled with respect to each of the last three financial years ending prior to the date on which the SCR is being calculated:
      1. (i) the annual turnover of the company exceeds GBP 8,800,000;
      2. (ii) the balance sheet total of the company exceeds GBP 8,800,000; or
      3. (iii) the number of staff employed by the company exceeds 50;
    6. (f) the sum of the company’s annual earnings before interest, tax, depreciation and amortisation (‘EBITDA’) over the last five financial years is greater than 0;
    7. (g) the total debt of the company at the end of the most recent financial year for which figures are available is no higher than 6.5 times the average of the company’s annual free cash-flows over the last five financial years;
    8. (h) the average of the company’s EBITDA over the last five financial years is no lower than 6.5 times the company’s interest expense for the most recent financial year for which figures are available; and
    9. (i) the net debt of the company at the end of the most recent financial year for which figures are available is no higher than 1.5 times the company’s total equity at the end of that financial year.

4.

The yield on the bond or loan, and the yield on any bonds and loans with similar contractual terms and conditions issued by the same company in the previous three financial years, is no higher than the higher of the following values:

  1. (1) the average of the yields on the two indices determined in accordance with 3D18.6; and
  2. (2) the sum of 0.5% and the yield on the index that meets the requirement in 3D18.6(4).

5.

The yield on the bond or loan, and the yield on bonds and loans with similar contractual terms and conditions issued by the same company in the previous three financial years, is no higher than the higher of the following values:

  1. (1) the average of the yields on the two indices determined in accordance with 3D18.7; and
  2. (2) the sum of 0.5% and the yield on the index that meets the requirement in 3D18.7(2).

6.

For the purposes of 3D18.4, a firm must use, for the bond or loan referred to in 3D18.1, the yield, as at the time of issuance of that bond or loan, on two indices that meet all of the following requirements:

  1. (1) both indices are broad indexes of traded bonds for which an external credit assessment is available;
  2. (2) the constituent traded bonds in the two indices are denominated in the same currency as the bond or loan;
  3. (3) the constituent traded bonds in the two indices have a similar maturity date as the bond or loan;
  4. (4) one of the two indices consists of traded bonds of credit quality step 2; and
  5. (5) one of the two indices consists of traded bonds of credit quality step 4.

7.

For the purposes of 3D18.5, a firm must use, for the bond or loan referred to in 3D18.2, the yield, as at the time of issuance of that bond or loan, on two indices that meet all of the following requirements:

  1. (1) both indices meet the requirements set out in 3D18.6(1), (2) and (3);
  2. (2) one of the two indices consists of traded bonds of credit quality step 3; and
  3. (3) one of the two indices consists of traded bonds of credit quality step 4.

8.

For the purposes of 3D18.4, where the bond or loan referred to in 3D18.1 has features, other than those related to credit risk or illiquidity, which materially differ from the features of the constituent traded bonds in the two indices determined in accordance with 3D18.6, a firm must adjust the yield on the bond or loan to reflect those differences.

9.

For the purposes of 3D18.5, where the bond or loan referred to in 3D18.2 has features, other than those related to credit risk or illiquidity, which materially differ from the features of the constituent traded bonds in the two indices determined in accordance with 3D18.7, a firm must adjust the yield on the bond or loan to reflect those differences.

3D19 Requirements For A Firm’s Own Internal Credit Assessment Of Bonds And Loans

1.

For the purposes of 3D18.3(1), a firm must comply with the following requirements in respect of its own internal credit assessment of a bond or loan:

  1. (1) the bond or loan is allocated a credit quality step on the basis of the firm’s own internal credit assessment;
  2. (2) the firm’s own internal credit assessment, and the allocation of a credit quality step to the bond or loan on the basis of that assessment, are reliable and properly reflect the spread risk of the bond or loan spread risk sub-module, and, subject to 3D19.2, the firm has notified the PRA of this in writing before it assigns a bond or loan to a credit quality step in accordance with 3D18.1 or 3D18.2;
  3. (3) the firm’s own internal credit assessment takes into account all factors which could have a material effect on the credit risk associated with the bond or loan, including the following factors:
    1. (a) the competitive position of the issuer;
    2. (b) the quality of the issuer’s management;
    3. (c) the financial policies of the issuer;
    4. (d) country risk;
    5. (e) the effect of any covenants that are in place;
    6. (f) the issuer’s financial performance history, including the number of years that it has been operating;
    7. (g) the issuer’s size and the level of diversity in its activities;
    8. (h) the quantitative impact on the issuer’s risk profile and financial ratios of its having issued the bond or loan;
    9. (i) the issuer’s ownership structure; and
    10. (j) the complexity of the issuer’s business model;
  4. (4) the firm’s own internal credit assessment uses all relevant quantitative and qualitative information;
  5. (5) the firm’s own internal credit assessment, the allocation of a credit quality step on the basis of that assessment and the information used to support the own internal credit assessment are documented;
  6. (6) the firm’s own internal credit assessment takes into account the characteristics of comparable assets for which a credit assessment by a nominated external credit assessment institution is available;
  7. (7) the firm’s own internal credit assessment takes into account trends in the issuer’s financial performance;
  8. (8) the firm’s own internal credit assessment is procedurally independent from the decision to underwrite; and
  9. (9) the firm regularly reviews its own internal credit assessment.

2.

Where a firm assigned a bond or loan to a credit quality step in accordance with Article 176a(1) or (2) of Commission Delegated Regulation (EU) 2015/35 immediately before 31 December 2024 and from 31 December 2024 assigns the bond or loan to a credit quality step in accordance with 3D18.1 or 3D18.2, the firm must notify the PRA in writing by 31 January 2025.

3D20 Assessment Of Credit Quality Steps Of Bonds And Loans Based On An Approved Internal Model

1.

This Chapter applies in the following circumstances:

  1. (1) a firm has concluded an agreement (‘co-investment agreement’) to invest in bonds and loans jointly with another entity;
  2. (2) that other entity (‘the co-investor’) is one or other of the following:
    1. (a) an institution which uses the Internal Ratings Based Approach referred to in Article 143(1) of the CRR; or
    2. (b) a UK Solvency II undertaking which uses an internal model to calculate its SCR;
  3. (3) pursuant to the co-investment agreement, the firm and the co-investor invest jointly in bonds and loans for which a credit assessment by a nominated external credit assessment institution is not available and for which debtors have not posted collateral by way of a collateral arrangement that meets the criteria set out in 3G8; and
  4. (4) the co-investment agreement provides that the co-investor shares with the firm the probabilities of default produced by its Internal Ratings Based Approach or, as applicable, the credit quality steps produced by its internal model for the bonds or loans referred to in (3) for the purpose of using that information for the calculation of the SCR of the firm.

2.

If all of the criteria set out in 3D20.3 to 3D20.6 are met, a firm must assign the bonds and loans referred to in 3D20.1(3) to credit quality steps determined as follows:

  1. (1) in a case where the co-investor falls within 3D20.1(2)(a), credit quality steps must be determined on the basis of the most recent probabilities of default that the Internal Ratings Based Approach has produced; and
  2. (2) in a case where the co-investor falls within 3D20.1(2)(b), credit quality steps must be the credit quality steps produced by the internal model.

3.

The criteria in this rule are as follows:

  1. (1) the issuer of each bond or loan does not belong to the same corporate group as the firm;
  2. (2) the issuer is not a UK Solvency II undertaking, an infrastructure entity, a credit institution, an investment firm, a financial institution, an alternative investment fund manager, a UCITS management company, an institution for occupational retirement provision or a non-regulated undertaking carrying out financial activities;
  3. (3) the issuer has its head office in the UK;
  4. (4) more than 50% of the issuer’s annual revenue is denominated in currencies of countries which are members of the OECD; and
  5. (5) at least one of the following requirements is met for each of the last three financial years ending prior to the date on which the SCR is being calculated:
    1. (a) the annual turnover of the issuer exceeds GBP 8,800,000;
    2. (b) the balance sheet total of the issuer exceeds GBP 8,800,000; or
    3. (c) the number of staff employed by the issuer exceeds 50.

4.

The criteria in this rule are as follows:

  1. (1) the co-investment agreement defines the types of bonds and loans to be underwritten, and the applicable assessment criteria;
  2. (2) the co-investor provides the firm with sufficient details of the underwriting process, including the criteria used, the organisational structure of the co-investor and the controls conducted by the co-investor;
  3. (3) the co-investor provides the firm with data on all applications for bonds and loans to be underwritten;
  4. (4) the co-investor provides the firm with details of all decisions to approve or reject applications for bonds and loans to be underwritten;
  5. (5) the co-investor retains an exposure of at least 20% of the nominal value of each bond and loan;
  6. (6) the underwriting process is the same as the underwriting process followed by the co-investor for its other investments in comparable bonds and loans;
  7. (7) the firm invests in all bonds and loans of the types referred to in (1) for which the co-investor decides to approve the bond or loan application; and
  8. (8) the co-investor provides the firm with information that allows the firm to understand the Internal Ratings Based Approach or, as applicable, internal model and its limitations, as well as its adequacy and appropriateness, in particular:
    1. (a) a description of the Internal Ratings Based Approach or, as applicable, internal model, including the inputs and risk factors, the quantification of risk parameters and the underlying methods, and the general methodology applied;
    2. (b) a description of the scope of the use of the Internal Ratings Based Approach or, as applicable, internal model; and
    3. (c) a description of the model validation process and of other processes which allow the model’s performance to be monitored, the appropriateness of its specification to be reviewed over time, and the results of the Internal Ratings Based Approach or, as applicable, internal model to be tested against experience.

5.

In a case where the co-investor falls within 3D20.1(2)(a):

  1. (1) the firm clearly documents to which credit quality step the probability of default produced by the institution’s Internal Ratings Based Approach corresponds;
  2. (2) the mapping of probabilities of default to credit quality step carried out by the firm ensures that, for the bond or loan in question, the resulting level of capital requirement for the spread risk sub-module is appropriate;
  3. (3) the mapping is based on Table 1 in Annex I to Commission Implementing Regulation (EU) 2016/1799;
  4. (4) adjustments are made in a prudent manner to the probabilities of default before the mapping is carried out, taking into account the qualitative factors set out in Article 7 of Commission Implementing Regulation (EU) 2016/1799; and
  5. (5) an adjustment to the probabilities of default is made in either of the following situations:
    1. (a) the time horizon covered by the Internal Ratings Based Approach deviates significantly from the 3-year time horizon set out in Article 4(2) of Commission Implementing Regulation (EU) 2016/1799; and
    2. (b) the definition of default used in the Internal Ratings Based Approach deviates significantly from the one set out in Article 4(4) of that Commission Implementing Regulation.

6.

In a case where the co-investor falls within 3D20.1(2)(b), its internal model ensures that, for the bond or loan in question, the resulting level of capital requirement for the spread risk sub-module is appropriate.

3D21 Spread Risk On Securitisation Positions: Calculation Of The Capital Requirement

1.

A firm must calculate the capital requirement SCRsecuritisation for spread risk on securitisation positions as equal to the loss in its basic own funds that would result from an instantaneous relative decrease of stressI in the value of each securitisation position i.

2.

The risk factor stressI must be calculated by reference to the modified duration denominated in years (durI), and durI must not be lower than 1 year.

3.

In respect of senior securitisation positions in STS securitisations which fulfil the requirements set out in Article 243 of the CRR and for which a credit assessment by a nominated external credit assessment institution is available, a firm must assign a risk factor stressi depending on the credit quality step and the modified duration of the securitisation position I, as set out in the following table:

Credit quality step 0 1 2 3 4 5 and 6
Duration
(duri)
stressi ai bi ai bi ai bi ai bi ai bi ai bi
up to 5 \[b_i\cdot {dur}_i\] 1.0% 1.2% 1.6%
2.8% 5.6% 9.4%
More than 5 and up to 10 \[a_i+b_i\cdot({dur}_i-5)\] 5.0% 0.6% 6.0% 0.7% 8.0% 0.8% 14.0% 1.7% 28.0% 3.1% 47.0% 5.3%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\] 8.0% 0.6% 9.5% 0.5% 12.0% 0.6% 22.5% 1.1% 43.5% 2.2% 73.5% 0.6%
More than 15 and up to 20 \[a_i+b_i\cdot({dur}_i-15)\] 11.0% 0.6% 12.0% 0.5% 15.0% 0.6% 28.0% 1.1% 54.5% 0.6% 76.5% 0.6%
More than 20 \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\] 14.0% 0.6% 14.5% 0.5% 18.0% 0.6% 33.5% 0.6% 57.5% 0.6% 79.5% 0.6%

4.

In respect of securitisation positions in STS securitisations that are not senior securitisation positions, which fulfil the requirements set out in Article 243 of the CRR and for which a credit assessment by a nominated external credit assessment institution is available, a firm must assign a risk factor stressi depending on the credit quality step and the modified duration of the securitisation position i, as set out in the following table:

Credit quality step 0 1 2 3 4 5 and 6
Duration
(duri)
stressi ai bi ai bi ai bi ai bi ai bi ai bi
up to 5 \[\textrm{min}\left[b_i\cdot{dur}_i;1\right]\] 2.8%  3.4% 4.6%  7.9%  15.8%  26.7% 
More than 5 and up to 10 \[\textrm{min}\left[a_i+b_i\cdot({dur}_i-5);1\right]\] 14.0%
1.6% 17.0% 1.9%  23.0%  2.3%  39.5%  4.7% 79.0% 8.8%  100.0%  0.0%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\] 22.0%  1.6%  26.5%  1.5%  34.5%  1.6%  63.0%  3.2%  100.0%  0.0% 100.0%  0.0%
More than 15 and up to 20 \[a_i+b_i\cdot({dur}_i-15)\] 30.0%  1.6%  34.0%  1.5%  42.5%  1.6% 79.0%  3.2% 100.0%  0.0% 100.0% 0.0%
More than 20 \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\] 38.0%  1.6%   41.5% 1.5%  50.5%  1.6% 95.0%  1.6%  100.0% 0.0% 100.0%  0.0%

5.

In respect of senior securitisation positions in STS securitisations which fulfil the criteria set out in Article 243 of the CRR and for which no credit assessment by a nominated external credit assessment institution is available, a firm must assign a risk factor stressi depending on the modified duration of the securitisation position i, as set out in the following table:

Duration
(duri)
stressi ai bi
up to 5 \[b_i\cdot {dur}_i\] —  4.6%
More than 5 and up to 10 \[a_i+b_i\cdot({dur}_i-5)\] 23% 2.5%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\] 35.5% 1.8%
More than 15 and up to 20 \[a_i+b_i\cdot({dur}_i-15)\] 44.5%  0.5%
More than 20 \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\] 47.0% 0.5%

6.

In respect of securitisation positions in STS securitisations that are not senior securitisation positions, which fulfil the criteria set out in Article 243 of the CRR and for which no credit assessment by a nominated external credit assessment institution is available, a firm must assign a risk factor stressI equivalent to credit quality step 5 and depending on the modified duration of the exposure, as set out in the table in 3D21.3.

7.

In respect of resecuritisation positions for which a credit assessment by a nominated external credit assessment institution is available, a firm must assign a risk factor stressI in accordance with the following formula:

stressi = min (bi · duri ;1)

where the value of bI depends on the credit quality step of resecuritisation position i, as set out in the following table:

Credit quality step 0 1 2 3 4  5 6
\[b_i\] 33% 40% 51% 91%
100% 100%
100%

8.

In respect of securitisation positions not covered by 3D21.3 to 3D21.7, for which a credit assessment by a nominated external credit assessment institution is available, a firm must assign a risk factor stressi in accordance with the following formula:

stressi = min (bi · duri ;1)

where the value of bi depends on the credit quality step of securitisation position i, as set out in the following table:

Credit quality step 0 1 2 3 4 5 6
\[b_i\] 12.5 % 13.4 %
16.6 %
19.7 %
82% 100%
100%

9.

In respect of securitisation positions not covered by 3D21.3 to 3D21.8, a firm must assign a risk factor stressi of 100%.

3D22 Spread Risk On Securitisation Positions: Transitional Provisions

1.

Notwithstanding 3D21.3, in respect of securitisations issued before 1 January 2019 that qualify as type 1 securitisations in accordance with Article 177(2) of Commission Delegated Regulation (EU) 2015/35 in the version that was in force on 31 December 2018, a firm must (subject to 3D22.2) assign a risk factor stressi in accordance with 3D21.3 even where those securitisations are not STS securitisations which fulfil the requirements set out in Article 243 of the CRR.

2.

3D22.1 applies only in circumstances where no new underlying exposures were added or substituted after 31 December 2018.

3.

Notwithstanding 3D21.3, in respect of securitisations issued before 18 January 2015 that qualify as type 1 securitisations in accordance with Article 177(4) in the version of Commission Delegated Regulation (EU) 2015/35 that was in force on 31 December 2018, a firm must assign a risk factor stressi in accordance with Articles 177 and 178 in the version in force on 31 December 2018.

4.

Notwithstanding 3D21.3, in respect of securitisations issued before 1 January 2019 that qualify as type 1 securitisations in accordance with Article 177(5) in the version of Commission Delegated Regulation (EU) 2015/35 that was in force on 31 December 2018, a firm must, until 31 December 2025, assign a risk factor stressi in accordance with Articles 177 and 178 in the version in force on 31 December 2018.

5.

For the purposes of 3D22.3 and 3D22.4, Article 177 (in the version of Commission Delegated Regulation (EU) 2015/35 which was in force on 31 December 2018) continues to have effect notwithstanding its deletion by Article 1(3) of Commission Delegated Regulation (EU) 2018/1221, and has effect for those purposes with the following modifications:

  1. (1) paragraph 2 is to be read as if:
    1. (a) a reference to Regulation (EU) No 575/2013 were a reference to the version of that Regulation which was in force on 31 December 2018;
    2. (b) in point (b) ‘the EEA or’ were omitted;
    3. (c) in point (h)(i):
      1. (i) for ‘national law of the Member State where the loans were originated’ there were substituted ‘loans were originated in the UK and the law of the UK’;
      2. (ii) ‘, and that Member State has notified this law to the Commission and EIOPA’ were omitted;
    4. (d) point (h)(ii) were omitted;
    5. (e) in point (h)(iv) for the words from ‘agricultural’ to ‘tracked’ there were substituted ‘tractors as defined in point (8) of Article 3 of Regulation (EU) No 167/2013 of the European Parliament and of the Council (as it had effect immediately before IP completion day), powered two-wheelers or powered tricycles as defined in points (68) and (69) of Article 3 of Regulation (EU) No 168/2013 of the European Parliament and of the Council (as it had effect immediately before IP completion day) or tracked’;
    6. (f) in points (r) and (s) for the words ‘countries that are not members of the Union’, both times it occurs, substitute ‘a country other than the UK’; and
    7. (g) in point (t):
      1. (i) the words from ‘and discloses information’ to ‘stress tests’ were omitted;
      2. (ii) for ‘Union’, in both places it occurs, there were substituted ‘UK’;
  2. (2) paragraph 4 is to be read as if for ‘the entry into force of this Regulation’ there were substituted ‘18 January 2015’; and
  3. (3) paragraph 5 is to be read as if, in points (a) and (c), for ‘the date of entry into force of this Regulation’ there were substituted ‘18 January 2015’.

3D23 Spread Risk On Credit Derivatives

1.

A firm must calculate the capital requirement SCRcd for spread risk on credit derivatives other than those referred to in 3D23.4 as equal to the higher of the following capital requirements:

  1. (1) the loss in its basic own funds that would result from an instantaneous increase in absolute terms of the credit spread of the instruments underlying the credit derivatives; and
  2. (2) the loss in its basic own funds that would result from an instantaneous relative decrease of the credit spread of the instruments underlying the credit derivatives by 75%.

2.

For the purposes of 3D23.1(1), a firm must calculate the instantaneous increase of the credit spread of the instruments underlying the credit derivatives for which a credit assessment by a nominated external credit assessment institution is available according to the following table:

Credit quality step 0 1 2 3 4 5 6
Instantaneous increase in spread (in percentage points) 1.3 1.5 2.6 4.5 8.4 16.2 16.2

3.

For the purposes of 3D23.1(1), a firm must calculate the instantaneous increase of the credit spread of the instruments underlying the credit derivatives for which a credit assessment by a nominated external credit assessment institution is not available as 5 percentage points.

4.

A firm must not subject credit derivatives which are part of the firm’s risk mitigation policy to a capital requirement for spread risk, provided that the firm holds either the instruments underlying the credit derivative or another exposure with respect to which the basis risk between that exposure and the instruments underlying the credit derivative is not material in any circumstances.

5.

Where the higher of the capital requirements referred to in 3D23.1(1) and (2) and the higher of the corresponding capital requirements calculated in accordance with 6.3(2) are not based on the same scenario, the capital requirement for spread risk on credit derivatives must be the capital requirement referred to in 3D23.1 for which the underlying scenario results in the highest corresponding capital requirement calculated in accordance with 6.3(2).

3D24 Specific Exposures

1.

In respect of exposures in the form of covered bonds which have been assigned to credit quality step 0 or 1, a firm must assign a risk factor stressi according to the following table:
Credit quality step Duration (duri)
0 1
up to 5 0.7% ∙ duri 0.9% ∙ duri
More than 5 years \[\textrm{min}(3.5\%+0.5\%\cdot \left({dur}_i-5\right);1)\] \[\textrm{min}(4.5\%+0.5\%\cdot \left({dur}_i-5\right);1)\]

2.

A firm must assign to exposures in the form of bonds and loans to the following a risk factor stressi of 0%:

  1. (1) UK central government and Bank of England denominated and funded in pounds sterling;
  2. (2) multilateral development banks referred to in paragraph 2 of Article 117 of the CRR; and
  3. (3) international organisations referred to in Article 118 of the CRR;

3.

A firm must assign a risk factor stressi of 0% to exposures in the form of bonds and loans that are fully, unconditionally and irrevocably guaranteed by one of the counterparties mentioned in 3D24.2(1) to (3), where the guarantee meets the requirements set out in 3G9.

4.

For the purposes of 3D24.2(1), a firm must treat exposures in the form of bonds and loans that are fully, unconditionally and irrevocably guaranteed by bodies listed in 3D1, where the guarantee meets the requirements set out in 3G9, as exposures to the central government.

5.

In respect of exposures in the form of bonds and loans to central governments and central banks other than those referred to in 3D24.2(1), denominated and funded in the domestic currency of that central government and central bank, and for which a credit assessment by a nominated external credit assessment institution is available, a firm must be assign a risk factor stressi depending on the credit quality step and the duration of the exposure according to the following table:

Credit quality step 0 and 1 2 3 4 5 and 6
Duration
(duri)
stressi ai bi ai bi ai bi ai bi ai bi
up to 5 \[b_i\cdot {dur}_i\] 0.0% 1.1% 1.4% 2.5% 4.5%
More than 5 and up to 10 \[a_i+b_i\cdot({dur}_i-5)\] 0.0%
0.0% 5.5% 0.6% 7.0% 0.7% 12.5% 1.5% 22.5% 2.5%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\] 0.0% 0.0% 8.4% 0.5% 10.5% 0.5%  20.0% 1.0% 35.0% 1.8%
More than 15 and up to 20 \[a_i+b_i\cdot({dur}_i-15)\] 0.0% 0.0% 10.9% 0.5% 13.0% 0.5%  25.0% 1.0% 44.0% 0.5%
More than 20 \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\] 0.0% 0.0% 13.4% 0.5% 15.5% 0.5% 30.0% 0.5% 46.5% 0.5%

6.

In respect of exposures in the form of bonds and loans to the UK’s regional governments and local authorities not listed in 3D1, a firm must assign a risk factor stressI from the table in 3D24.5 corresponding to credit quality step 2.

7.

In respect of exposures in the form of bonds and loans that are fully, unconditionally and irrevocably guaranteed by the UK’s regional government or local authority that are not listed in 3D1, where the guarantee meets the requirements set out in 3G9, must be assigned a risk factor stressi from the table in 3D24.5 corresponding to credit quality step 2.

8.

In respect of exposures in the form of bonds and loans to a UK Solvency II undertaking for which a credit assessment by a nominated external credit assessment institution is not available and where this UK Solvency II undertaking meets its MCR, a firm must assign a risk factor stressI from the table in 3D17.3 depending on the UK Solvency II undertaking’s solvency ratio, using the following mapping between solvency ratios and credit quality steps:

Solvency ratio 196% 175% 122% 95% 75% 75%
Credit quality step 1 2 3 4 5 6

9.

Where the solvency ratio falls in between the solvency ratios set out in the table above, the value of stressi must be linearly interpolated from the closest values of stressi corresponding to the closest solvency ratios set out in the table above, provided that:

  1. (1) where the solvency ratio is lower than 75%, stressi must be equal to the factor corresponding to the credit quality steps 5 and 6; and
  2. (2) where the solvency ratio is higher than 196%, stressi must be the same as the factor corresponding to the credit quality step 1.

10.

For the purposes of 3D24.8 and 3D24.9, ‘solvency ratio’ denotes the ratio of the eligible own funds to cover the SCR and the SCR, using the latest available values.

11.

A firm must assign to exposures in the form of bonds and loans to a UK Solvency II undertaking which does not meet its MCR a risk factor stressi according to the following table:

Duration (duri) risk factor stressi
up to 5 7.5%∙duri
More than 5 and up to 10 37.50% + 4.20%∙(duri −5)
More than 10 and up to 15
58.50% + 0.50%∙(duri −10)
More than 15 and up to 20 61% + 0.50%∙(duri −15)
More than 20 \[\textrm{min}(63.5\%+0.5\%\cdot \left({dur}_i-20\right);1)\]

12.

3D24.8 to 3D24.11 only applies as of the first date of public disclosure, by the UK Solvency II undertaking corresponding to the exposure, of the SFCR, and before that date:

  1. (1) if a credit assessment by a nominated external credit assessment institution is available for the exposures, 3D17 applies;
  2. (2) in all other cases, a firm must assign to the exposures the same risk factor as the ones that would result from the application of 3D24.8 to 3D24.10 to exposures to a UK Solvency II undertaking whose solvency ratio is 100%.

13.

In respect of exposures in the form of bonds and loans to a third country insurance undertaking or a third country reinsurance undertaking for which a credit assessment by a nominated external credit assessment institution is not available, situated in a third country which is an overseas jurisdiction designated under regulation 11 in relation to regulation 13 of the IRPR regulations in respect of the insurance group capital requirements calculation, and which complies with the solvency requirements of that third country, a firm must assign the same risk factor as the ones that would result from the application of 3D24.8 to 3D24.10 to exposures to a UK Solvency II undertaking whose solvency ratio is 100%.

14.

In respect of exposures in the form of bonds and loans to credit institutions and financial institutions which comply with the solvency requirements set out in the PRA Rulebook, the CRR or technical standards as amended from time to time, for which a credit assessment by a nominated external credit assessment institution is not available, a firm must assign the same risk factor as the ones that would result from the application of 3D24.8 to 3D24.10 to exposures to a UK Solvency II undertaking whose solvency ratio is 100%.

15.

A firm must calculate the capital requirement for spread risk on credit derivatives where the underlying financial instrument is a bond or a loan to any exposure listed in 3D24.2 as nil.

16.

In respect of exposures in the form of bonds and loans that fulfil the criteria set out in 3D24.17, a firm must assign a risk factor stressi depending on the credit quality step and the duration of the exposure, according to the following table:

Credit quality step 0 1 2 3
Duration
(duri)
stressi ai bi ai bi ai bi ai bi
up to 5 \[b_i\cdot {dur}_i\] 0.64%  0.78% 1.0% 1.67%
More than 5 and up to 10 \[a_i+b_i\cdot({dur}_i-5)\] 3.2% 0.36% 3.9% 0.43% 5.0% 0.5% 8.35% 1.0%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\] 5.0% 0.36% 6.05% 0.36% 7.5% 0.36% 13.35% 0.67%
More than 15 and up to 20 \[a_i+b_i\cdot({dur}_i-15)\] 6.8%  0.36% 7.85% 0.36% 9.3% 0.36% 16.7% 0.67%
More than 20 \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\] 8.6%  0.36% 9.65% 0.36% 11.1% 0.36% 20.05% 0.36%

17.

The criteria for exposures that are assigned a risk factor in accordance with 3D24.16 are:

  1. (1) the exposure relates to a qualifying infrastructure investment that meets the criteria set out in 3D2;
  2. (2) the exposure is not an asset that fulfils the following conditions:
    1. (a) it is assigned to a matching adjustment portfolio; and
    2. (b) it has been assigned a credit quality step between 0 and 2;
  3. (3) a credit assessment by a nominated external credit assessment institution is available for the exposure; and
  4. (4) the exposure has been assigned a credit quality step between 0 and 3.

18.

In respect of exposures in the form of bonds and loans that meet the criteria set out in 3D24.17(1) and (2), but do not meet the criteria set out in 3D24.17(3), a firm must assign a risk factor stressi equivalent to credit quality step 3 and the duration of the exposure in accordance with the table set out in 3D24.16.

19.

In respect of exposures in the form of bonds and loans that fulfil the criteria set out in 3D24.20, a firm must assign a risk factor stressi depending on the credit quality step and the duration of the exposure according to the following table:

Credit quality step 0 1 2 3
Duration
(duri)
stressi ai bi ai bi ai bi ai bi
up to 5 \[b_i\cdot {dur}_i\]  — 0.68% 0.83% 1.05% 1.88%
More than 5 and up to 10 \[a_i+b_i\cdot({dur}_i-5)\]  3.38% 0.38% 4.13% 0.45% 5.25% 0.53% 9.38% 1.13%
More than 10 and up to 15 \[a_i+b_i\cdot({dur}_i-10)\]  5.25% 0.38% 6.38% 0.38% 7.88% 0.38% 15.0% 0.75%
More than 15 and up to 20 \[a_i+b_i\cdot({dur}_i-15)\]  7.13% 0.38% 8.25% 0.38% 9.75% 0.38% 18.75% 0.75%
More than 20 \[min\left[a_i+b_i\cdot \left({dur}_i-20\right);1\right]\]  9.0% 0.38% 10.13% 0.38% 11.63% 0.38% 22.50% 0.38%

20.

The criteria for exposures that are assigned a risk factor in accordance with 3D24.19 are:

  1. (1) the exposure relates to a qualifying infrastructure corporate investment that meets the criteria set out in 3D3;
  2. (2) the exposure is not an asset that fulfils the following conditions:
    1. (a) it is assigned to a matching adjustment portfolio; and
    2. (b) it has been assigned a credit quality step between 0 and 2;
  3. (3) a credit assessment by a nominated external credit assessment institution is available for the infrastructure entity; and
  4. (4) the exposure has been assigned a credit quality step between 0 and 3.

21.

In respect of exposures in the form of bonds and loans that meet the criteria set out in 3D24.20(1) and (2), but do not meet the criteria set out in 3D24.20(3), a firm must assign a risk factor stressi equivalent to credit quality step 3 and the duration of the exposure in accordance with the table set out in 3D24.19.

3D25 Application of the Spread Risk Scenarios to Matching Adjustment Portfolios

1

Where a firm applies the matching adjustment, it must carry out the scenario-based calculation for spread risk as follows:

  1. (1) the relevant portfolio of assets must be subject to the instantaneous decrease in value for spread risk set out in 3D17, 3D21 and 3D24; and
  2. (2) the firm must recalculate the technical provisions to take into account the impact on the amount of the matching adjustment of the instantaneous decrease in value of the relevant portfolio of assets and, in particular, the firm must increase the fundamental spread calculated in respect of assigned assets by an absolute amount that is calculated as the product of the following:
    1. (a) the absolute increase in spread that, multiplied by the modified duration of the relevant asset, would result in the relevant risk factor stressi, referred to in 3D17, 3D21 and 3D24; and
    2. (b) a reduction factor, depending on the credit quality as set out in the following table:
Credit quality step 0  1  2  3  5  6
Reduction factor 45 %  50% 60% 75% 100% 100% 100%

2

In respect of the assigned assets for which no credit assessment by a nominated external credit assessment institution is available, and for qualifying infrastructure assets and for qualifying infrastructure corporate assets that have been assigned credit quality step 3, a firm must apply a reduction factor of 100%.

Market Risk Concentrations Sub-Module

3D26 Single Name Exposure

1

A firm must calculate the capital requirement for market risk concentrations on the basis of single name exposures. For this purpose:

  1. (1) exposures to undertakings which belong to the same corporate group must be treated as a single name exposure; and
  2. (2) immovable properties which are located in the same building must be treated as a single immovable property.

2

A firm must calculate the exposure at default to a counterparty as the sum of its exposures to this counterparty.

3

A firm must calculate the exposure at default to a single name exposure as the sum of the exposures at default to all counterparties that belong to the single name exposure.

4

A firm must calculate the weighted average credit quality step on a single name exposure as equal to the rounded-up average of the credit quality steps of all exposures to all counterparties that belong to the single name exposure, weighted by the value of each exposure.

5

For the purposes of 3D26.4, a firm must assign to exposures for which a credit assessment by a nominated external credit assessment institution is available a credit quality step in accordance with 1A to 1C.

6

For the purposes of 3D26.4, in respect of exposures to a UK Solvency II undertaking for which a credit assessment by a nominated external credit assessment institution is not available and where the UK Solvency II undertaking meets its MCR, a firm must assign a credit quality step depending on the UK Solvency II undertaking’s solvency ratio using the following mapping between solvency ratios and credit quality steps:

Solvency Ratio 196% 175% 122% 100% 95%
Credit quality step 1  2  3  3.82 5

7

Where the solvency ratio falls in between the solvency ratios set out in the table above, the credit quality step must be linearly interpolated from the closest credit quality steps corresponding to the closest solvency ratios set out in the table above, provided that:

  1. (1) where the solvency ratio is lower than 95%, the credit quality step must be 5; and
  2. (2) where the solvency ratio is higher than 196%, the credit quality step must be 1.

8

For the purposes of 3D26.6 to 3D26.7, ‘solvency ratio’ denotes the ratio of the eligible own funds to cover the SCR and the SCR, using the latest available values.

9

For the purposes of 3D26.4, a firm must assign credit quality step 6 to exposures to a UK Solvency II undertaking for which a credit assessment by a nominated external credit assessment institution is not available and where the UK Solvency II undertaking does not meet its MCR.

10

3D26.6 to 3D26.9 only applies as of the first date of public disclosure, by the UK Solvency II undertaking corresponding to the exposure, of the SFCR and before that date, a firm must assign the exposures to credit quality step 3.82.

11

For the purposes of 3D26.4, a firm must assign exposures to a third country insurance undertaking or a third country reinsurance undertaking for which a credit assessment by a nominated external credit assessment institution is not available, situated in a third country which is an overseas jurisdiction designated under regulation 11 in relation to regulation 13 of the IRPR regulations in respect of the insurance group capital requirements calculation, and which complies with the solvency requirements of that third country, to credit quality step 3.82.

12

For the purposes of 3D26.4, a firm must assign exposures to credit institutions and financial institutions, which comply with the solvency requirements set out in the PRA Rulebook, the CRR or technical standards as amended from time to time, for which a credit assessment by a nominated external credit assessment institution is not available, to credit quality step 3.82.

13

For the purpose of 3D26.4, firm must assign exposures other than those to which a credit quality step is assigned under 3D26.5 to 3D26.12 to credit quality step 5.

3D27 Calculation of the Capital Requirements for Market Risk Concentrations

1

A firm must calculate the capital requirement for market risk concentrations in accordance with the following formula:

\[{SCR}_{conc}=\sqrt{\sum\nolimits_{i}{Conc}_i^2}\]

where:

  1. (a) the sum covers all single name exposures i; and
  2. (b) Conci denotes the capital requirement for market risk concentrations on a single name exposure i.

2

For each single name exposure i, a firm must calculate the capital requirement for market risk concentrations Conci as equal to the loss in its basic own funds that would result from an instantaneous decrease in the value of the assets corresponding to the single name exposure i calculated in accordance with the following formula:

\[XS_{i}\cdot g_{i}\]

where:

  1. (a) XSi is the excess exposure referred to in 3D28; and
  2. (b) gi is the risk factor for market risk concentrations referred to in 3D30 and 3D31;

3D28 Excess Exposure

1

A firm must calculate the excess exposure on a single name exposure i in accordance with the following formula:

\[{XS}_i=Max\left(0;E_i-{CT}_i\cdot Assets\right)\]

where:

  1. (a) Ei denotes the exposure at default to single name exposure i that is included in the calculation base of the market risk concentrations sub-module;
  2. (b) Assets denotes the calculation base of the market risk concentrations sub-module; and
  3. (c) CTi denotes the relative excess exposure threshold referred to in 3D29.

2

The calculation base of the market risk concentrations sub-module Assets must be equal to the value of all assets held by the firm, excluding the following:

  1. (1) assets held in respect of long-term insurance contracts where the investment risk is fully borne by the policyholders;
  2. (2) exposures to a counterparty which belongs to the same group as the firm, provided that all of the following requirements are met:
    1. (a) the counterparty is a UK Solvency II undertaking, an insurance holding company, a mixed financial holding company or an ancillary services undertaking;
    2. (b) the counterparty is fully consolidated in accordance with Group Supervision 11.1A(1);
    3. (c) the counterparty is subject to the same risk evaluation, measurement and control procedures as the firm;
    4. (d) the counterparty is established in the UK; and
    5. (e) there is no current or foreseen material practical or legal impediment to the prompt transfer of own funds or repayment of liabilities from the counterparty to the firm;
  3. (3) the value of the participations as referred to in Own Funds 3K.6 in financial institutions and credit institutions that is deducted from own funds pursuant to Own Funds 3K;
  4. (4) exposures included in the scope of the counterparty default risk module;
  5. (5) deferred tax assets; and
  6. (6) intangible assets.

3

A firm must reduce the exposure at default on a single name exposure i by the amount of the exposure at default to counterparties belonging to that single name exposure and for which the risk factor for market risk concentrations referred to in 3D30 and 3D31 is 0%.

3D29 Relative Excess Exposure Thresholds

1

In respect of each single name exposure i, a firm must assign, in accordance with the following table, a relative excess exposure threshold depending on the weighted average credit quality step of the single name exposure i, calculated in accordance with 3D26.4.

Weighted average credit quality step of single name exposure i