Symbol Description Uses
recipAvT Temp. for holding reciprocal of averaging period. 30


File Line number Procedure Code
./pkg/aim_compon_interf/atm_export_evmpr.F 33 ATM_EXPORT_EVMPR 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_evmpr.F 47 ATM_EXPORT_EVMPR 
         recipAvT = 1. _d 0/EvMPrTime(bi,bj)
./pkg/aim_compon_interf/atm_export_evmpr.F 50 ATM_EXPORT_EVMPR 
           EvMPrFlux(I,J,bi,bj) = EvMPrFlux(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_taux.F 33 ATM_EXPORT_TAUX 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_taux.F 47 ATM_EXPORT_TAUX 
         recipAvT = 1. _d 0/tauXTime(bi,bj)
./pkg/aim_compon_interf/atm_export_taux.F 50 ATM_EXPORT_TAUX 
           tauX(I,J,bi,bj) = tauX(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_saltfx.F 33 ATM_EXPORT_SALTFX 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_saltfx.F 47 ATM_EXPORT_SALTFX 
         recipAvT = 1. _d 0/saltFxTime(bi,bj)
./pkg/aim_compon_interf/atm_export_saltfx.F 50 ATM_EXPORT_SALTFX 
           iceSaltFlx(I,J,bi,bj) = iceSaltFlx(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_atmslp.F 33 ATM_EXPORT_ATMSLP 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_atmslp.F 47 ATM_EXPORT_ATMSLP 
         recipAvT = 1. _d 0/atmSLPrTime(bi,bj)
./pkg/aim_compon_interf/atm_export_atmslp.F 50 ATM_EXPORT_ATMSLP 
           atmSLPr(I,J,bi,bj) = atmSLPr(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_seaice.F 33 ATM_EXPORT_SEAICE 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_seaice.F 47 ATM_EXPORT_SEAICE 
         recipAvT = 1. _d 0/seaIceTime(bi,bj)
./pkg/aim_compon_interf/atm_export_seaice.F 50 ATM_EXPORT_SEAICE 
           seaIceMass(I,J,bi,bj) = seaIceMass(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_qshortwave.F 33 ATM_EXPORT_QSHORTWAVE 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_qshortwave.F 47 ATM_EXPORT_QSHORTWAVE 
         recipAvT = 1. _d 0/qShortWaveTime(bi,bj)
./pkg/aim_compon_interf/atm_export_qshortwave.F 50 ATM_EXPORT_QSHORTWAVE 
           qShortWave(I,J,bi,bj) = qShortWave(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_roenfx.F 33 ATM_EXPORT_ROENFX 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_roenfx.F 47 ATM_EXPORT_ROENFX 
         recipAvT = 1. _d 0/ROEnFxTime(bi,bj)
./pkg/aim_compon_interf/atm_export_roenfx.F 50 ATM_EXPORT_ROENFX 
           RunOffEnFx(I,J,bi,bj) = RunOffEnFx(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_heatflux.F 33 ATM_EXPORT_HEATFLUX 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_heatflux.F 47 ATM_EXPORT_HEATFLUX 
         recipAvT = 1. _d 0/HeatFluxTime(bi,bj)
./pkg/aim_compon_interf/atm_export_heatflux.F 50 ATM_EXPORT_HEATFLUX 
           HeatFlux(I,J,bi,bj) = HeatFlux(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_tauy.F 33 ATM_EXPORT_TAUY 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_tauy.F 47 ATM_EXPORT_TAUY 
         recipAvT = 1. _d 0/tauYTime(bi,bj)
./pkg/aim_compon_interf/atm_export_tauy.F 50 ATM_EXPORT_TAUY 
           tauY(I,J,bi,bj) = tauY(I,J,bi,bj)*recipAvT
./pkg/aim_compon_interf/atm_export_runoff.F 33 ATM_EXPORT_RUNOFF 
      _RL recipAvT
./pkg/aim_compon_interf/atm_export_runoff.F 47 ATM_EXPORT_RUNOFF 
         recipAvT = 1. _d 0/RunOffTime(bi,bj)
./pkg/aim_compon_interf/atm_export_runoff.F 50 ATM_EXPORT_RUNOFF 
           RunOffFlux(I,J,bi,bj) = RunOffFlux(I,J,bi,bj)*recipAvT