3.3.2 Asymmetric Parameters

If ASYMMOD=1 ASYMMOD = 1 then,

CDSCDa=CDSCD[N]Wf+CDSCDR[N]Wr(3.228) CDSCD_a = CDSCD[N] \cdot W_f + CDSCDR[N] \cdot W_r \qquad (3.228)

ETA0a=ETA0(T)Wf+ETA0R(T)Wr(3.229) ETA0_a = ETA0(T) \cdot W_f + ETA0R(T) \cdot W_r \qquad (3.229)

PDIBL1a=PDIBL1iWf+PDIBL1RiWr(3.230) PDIBL1_a = PDIBL1_i \cdot W_f + PDIBL1R_i \cdot W_r \qquad (3.230)

PTWGa=PTWG(T)Wf+PTWGR(T)Wr(3.231) PTWG_a = PTWG(T) \cdot W_f + PTWGR(T) \cdot W_r \qquad (3.231)

VSAT1a=VSAT1(T)Wf+VSAT1R(T)Wr(3.232) VSAT1_a = VSAT1(T) \cdot W_f + VSAT1R(T) \cdot W_r \qquad (3.232)

RSDRa=RSDR(T)Wf+RSDRR(T)Wr(3.233) RSDR_a = RSDR(T) \cdot W_f + RSDRR(T) \cdot W_r \qquad (3.233)

RDDRa=RDDR(T)Wf+RDDRR(T)Wr(3.234) RDDR_a = RDDR(T) \cdot W_f + RDDRR(T) \cdot W_r \qquad (3.234)

MEXPa=MEXP(T)Wf+MEXPR(T)Wr(3.235) MEXP_a = MEXP(T) \cdot W_f + MEXPR(T) \cdot W_r \qquad (3.235)

U0a=U0(T)Wf+U0R(T)Wr(3.236) U0_a = U0(T) \cdot W_f + U0R(T) \cdot W_r \qquad (3.236)

UAa=UA(T)Wf+UAR(T)Wr(3.237) UA_a = UA(T) \cdot W_f + UAR(T) \cdot W_r \qquad (3.237)

UCa=UC(T)Wf+UCR(T)Wr(3.238) UC_a = UC(T) \cdot W_f + UCR(T) \cdot W_r \qquad (3.238)

UDa=UD(T)Wf+UDR(T)Wr(3.239) UD_a = UD(T) \cdot W_f + UDR(T) \cdot W_r \qquad (3.239)

EUa=EU(T)Wf+EUR(T)Wr(3.240) EU_a = EU(T) \cdot W_f + EUR(T) \cdot W_r \qquad (3.240)

PDIBL2a=PDIBL2iWf+PDIBL2RiWr(3.241) PDIBL2_a = PDIBL2_i \cdot W_f + PDIBL2R_i \cdot W_r \qquad (3.241)

KSATIVa=KSATIViWf+KSATIVRiWr(3.242) KSATIV_a = KSATIV_i \cdot W_f + KSATIVR_i \cdot W_r \qquad (3.242)

DVTSHIFTa=DVTSHIFTiWf+DVTSHIFTRiWr(3.243) DVTSHIFT_a = DVTSHIFT_i \cdot W_f + DVTSHIFTR_i \cdot W_r \qquad (3.243)

CITa=CITiWf+CITRiWr(3.244) CIT_a = CIT_i \cdot W_f + CITR_i \cdot W_r \qquad (3.244)

Else, all above PARAMa=PARAM PARAM_a = PARAM and reverse mode parameter PARAMR PARAMR are ignored.

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