List of changes in delay or phase files can be followed here.

Current: Valid 2010, May 1st, 9h00 (~ run 134652) :

Summary of all parameters (decimal!):


   #### TPG calculation parameters ####
    useTransverseEnergy = cms.bool(True),    ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),            ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),            ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                 ## Parameter used for the FE data format, should'nt be changed

    weight_timeShift = cms.double(0.),       ## weights are computed shifting the timing of the shape by this amount in ns: val>0 => shape shifted to the right
    weight_sampleMax = cms.uint32(3),        ## position of the maximum among the 5 samples used by the TPG amplitude filter
    weight_unbias_recovery = cms.bool(True), ## true if weights after int conversion are forced to have sum=0. Pb, in that case it can't have sum f*w = 1

    forcedPedestalValue = cms.int32(-2),     ## use this value instead of getting it from DB or MC
                                             ## -1: means use value from DB or MC.
                                             ## -2: ped12 = 0 used to cope with FENIX bug
                                             ## -3: used with sFGVB
    forceEtaSlice = cms.bool(False),         ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),       ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.250),    ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(0.250),    ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),    ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),          ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),     ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),    ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),          ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),     ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),   ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0),  ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),   ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0),  ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(18.75),       ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0xfffefee8),  ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 117

TCC
Trigger Pos = 81

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE100326

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Phases_100326.txt

SLB
FIFOCLEARCODE = 2

TXBC0DELAY = 37

GLOBALSOGDELAY =3538

SLB latency in EE = 4 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 86

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_100501

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Phases_100501.txt

Phase TTCRx file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/PhaseTTCrx.txt

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EB = 6

Valid 2010, April 8th, 18h00 (after run 132873 :

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.250),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(0.250),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 117

TCC
Trigger Pos = 81

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE100317

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Phases_allZero.txt

SLB
FIFOCLEARCODE = 2

TXBC0DELAY = 37

GLOBALSOGDELAY =3538

SLB latency in EE = 4 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 86

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_100125

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Phases_100201.txt

Phase TTCRx file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/PhaseTTCrx.txt

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EB = 6

Valid 2010, March 17th, 18h00 (after run 131281) :

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 117

TCC
Trigger Pos = 81

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE100317

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Phases_allZero.txt

SLB
FIFOCLEARCODE = 2

TXBC0DELAY = 37

GLOBALSOGDELAY =3538

SLB latency in EE = 4 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 86

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_100125

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Phases_100201.txt

Phase TTCRx file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/PhaseTTCrx.txt

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EB = 6

Valid 2010, Feb 3rd, 19h30 :

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 117

TCC
Trigger Pos = 81

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE100202

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Phases_allZero.txt

SLB
FIFOCLEARCODE = 2

TXBC0DELAY = 37

GLOBALSOGDELAY =3538

SLB latency in EE = 4 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 86

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_100125

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Phases_100201.txt

Phase TTCRx file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/PhaseTTCrx.txt

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EB = 6

Valid 2010, Feb 3rd :

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 117

TCC
Trigger Pos = 82

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE100202

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Phases_allZero.txt

SLB
FIFOCLEARCODE = 4

TXBC0DELAY = 36

GLOBALSOGDELAY =3538

SLB latency in EE = 5 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 86

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_100125

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Phases_100201.txt

Phase TTCRx file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/PhaseTTCrx.txt

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EB = 7

Valid 2010, Feb 1st :

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 83

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE091116

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 35

GLOBALSOGDELAY =3538

SLB latency in EE = 6 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 86

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_100125

Phase file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Phases_100201.txt

Phase TTCRx file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/PhaseTTCrx.txt

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EB = 7

Valid 2009, Dec 1st, 18h:

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 83

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE091116

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 35

GLOBALSOGDELAY =3538

SLB latency in EE = 6 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 92

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_091118

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 27

GLOBALSOGDELAY =3538

SLB latency in EB = 7

Valid 2009, Dec 3rd, 10h:

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 83

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE091116

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 35

GLOBALSOGDELAY =3538

SLB latency in EE = 6 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 92

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_091202

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 27

GLOBALSOGDELAY =3538

SLB latency in EB = 7

Valid 2009, Dec 1st, 18h:

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 83

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE091116

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 35

GLOBALSOGDELAY =3538

SLB latency in EE = 6 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 92

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_091118

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 27

GLOBALSOGDELAY =3538

SLB latency in EB = 7

Valid 2009, Nov 18th, 16h30:

Summary of all parameters (decimal!):

    useTransverseEnergy = cms.bool(True),   ## true when TPG computes transverse energy, false for energy
    Et_sat_EB = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)
    Et_sat_EE = cms.double(64.0),           ## Saturation value (in GeV) of the TPG before the compressed-LUT (rem: with 35.84 the TPG_LSB = crystal_LSB)

    sliding = cms.uint32(0),                ## Parameter used for the FE data format, should'nt be changed

    weight_sampleMax = cms.uint32(3),       ## position of the maximum among the 5 samples used by the TPG amplitude filter

    forcedPedestalValue = cms.int32(-2),    ## use this value instead of getting it from DB or MC (-1 means use DB or MC. -2 used to cope with FENIX bug)
    forceEtaSlice = cms.bool(False),        ## when true, same linearization coeff for all crystals belonging to a given eta slice (tower)

    LUT_option = cms.string('Linear'),      ## compressed LUT option can be: "Identity", "Linear", "EcalResolution"
    LUT_threshold_EB = cms.double(0.750),   ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_threshold_EE = cms.double(1.0625),  ## All Trigger Primitives <= threshold (in GeV) will be set to 0 
    LUT_stochastic_EB = cms.double(0.03),   ## Stochastic term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EB = cms.double(0.2),         ## noise term (GeV) of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EB = cms.double(0.005),    ## constant term of the ECAL-EB ET resolution (used only if LUT_option="EcalResolution")
    LUT_stochastic_EE = cms.double(0.03),   ## Stochastic term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_noise_EE = cms.double(0.2),         ## noise term (GeV) of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")
    LUT_constant_EE = cms.double(0.005),    ## constant term of the ECAL-EE ET resolution (used only if LUT_option="EcalResolution")

    TTF_lowThreshold_EB = cms.double(1.0),  ## EB Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EB = cms.double(2.0), ## EB Trigger Tower Flag high threshold in GeV
    TTF_lowThreshold_EE = cms.double(1.0),  ## EE Trigger Tower Flag low threshold in GeV
    TTF_highThreshold_EE = cms.double(2.0), ## EE Trigger Tower Flag high threshold in GeV

    FG_lowThreshold_EB = cms.double(0.3125),   ## EB Fine Grain Et low threshold in GeV
    FG_highThreshold_EB = cms.double(0.3125),  ## EB Fine Grain Et high threshold in GeV
    FG_lowRatio_EB = cms.double(0.8),          ## EB Fine Grain low-ratio
    FG_highRatio_EB = cms.double(0.8),         ## EB Fine Grain high-ratio
    FG_lut_EB = cms.uint32(0x08),              ## EB Fine Grain Look-up table. Put something != 0 if you really know what you do!
    FG_Threshold_EE = cms.double(0.0),         ## EE Fine threshold in GeV
    FG_lut_strip_EE = cms.uint32(0),           ## EE Fine Grain strip Look-up table
    FG_lut_tower_EE = cms.uint32(0)            ## EE Fine Grain tower Look-up table

EE

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 83

BC0_MEMORY_SHIFT = 3446

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc-ee/Delays.txt_EE091116

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 33

GLOBALSOGDELAY =3538

SLB latency in EE = 8 (firmware b807)

EB

TTCci
BC0 DELAY = 3470

TTCf
RX BC0 DELAY = 39

REG_30 = 245

TCC
Trigger Pos = 92

BC0_MEMORY_SHIFT = 3445

Delay file = /nfshome0/ecalpro/DAQ/RunTime/GREN/config/tcc/Delays.txt_091118

SLB
FIFOCLEARCODE = 5

TXBC0DELAY = 27

GLOBALSOGDELAY =3538

SLB latency in EB = 7

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Topic revision: r14 - 2010-05-01 - PascalPaganini
 
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