diff --git a/devices/PCC.py b/devices/PCC.py index ff0ed0914f43272ab195b8a55f8f550e7fdd3ceb..6f97cd071399990b2293fc826ebefd40951752ac 100644 --- a/devices/PCC.py +++ b/devices/PCC.py @@ -69,37 +69,30 @@ class PCC(hardware_device): # ---------- # Attributes # ---------- - RCU_mask_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_mask_RW"], datatype=numpy.bool_, dims=(32,), access=AttrWriteType.READ_WRITE) Ant_mask_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:Ant_mask_RW"], datatype=numpy.bool_, dims=(3, 32), access=AttrWriteType.READ_WRITE) + HBA_element_beamformer_delays_R = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_beamformer_delays_R"], datatype=numpy.int64, dims=(32, 96)) + HBA_element_beamformer_delays_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_beamformer_delays_RW"], datatype=numpy.int64, dims=(32, 96), access=AttrWriteType.READ_WRITE) + HBA_element_pwr_R = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_pwr_R"], datatype=numpy.int64, dims=(32, 96)) + HBA_element_pwr_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_pwr_RW"], datatype=numpy.int64, dims=(32, 96), access=AttrWriteType.READ_WRITE) + RCU_ADC_CML_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_CML_R"], datatype=numpy.int64, dims=(3, 32)) + RCU_ADC_JESD_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_JESD_R"], datatype=numpy.int64, dims=(3, 32)) + RCU_ADC_lock_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_lock_R"], datatype=numpy.int64, dims=(3, 32)) + RCU_ADC_SYNC_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_SYNC_R"], datatype=numpy.int64, dims=(3, 32)) RCU_attenuator_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_attenuator_R"], datatype=numpy.int64, dims=(3, 32)) - RCU_attenuator_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_attenuator_RW"], datatype=numpy.int64, dims=(3, 32), - access=AttrWriteType.READ_WRITE) + RCU_attenuator_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_attenuator_RW"], datatype=numpy.int64, dims=(3, 32), access=AttrWriteType.READ_WRITE) RCU_band_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_band_R"], datatype=numpy.int64, dims=(3, 32)) RCU_band_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_band_RW"], datatype=numpy.int64, dims=(3, 32), access=AttrWriteType.READ_WRITE) - RCU_temperature_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_temperature_R"], datatype=numpy.float64, dims=(32,)) - RCU_Pwr_dig_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_Pwr_dig_R"], datatype=numpy.int64, dims=(32,)) + RCU_ID_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ID_R"], datatype=numpy.int64, dims=(32,)) RCU_LED0_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_LED0_R"], datatype=numpy.int64, dims=(32,)) RCU_LED0_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_LED0_RW"], datatype=numpy.int64, dims=(32,), access=AttrWriteType.READ_WRITE) - RCU_ADC_lock_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_lock_R"], datatype=numpy.int64, dims=(3, 32)) - RCU_ADC_SYNC_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_SYNC_R"], datatype=numpy.int64, dims=(3, 32)) - RCU_ADC_JESD_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_JESD_R"], datatype=numpy.int64, dims=(3, 32)) - RCU_ADC_CML_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ADC_CML_R"], datatype=numpy.int64, dims=(3, 32)) + RCU_mask_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_mask_RW"], datatype=numpy.bool_, dims=(32,), access=AttrWriteType.READ_WRITE) + RCU_monitor_rate_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_monitor_rate_RW"], datatype=numpy.float64, access=AttrWriteType.READ_WRITE) RCU_OUT1_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_OUT1_R"], datatype=numpy.int64, dims=(3, 32)) RCU_OUT2_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_OUT2_R"], datatype=numpy.int64, dims=(3, 32)) - RCU_ID_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_ID_R"], datatype=numpy.int64, dims=(32,)) + RCU_Pwr_dig_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_Pwr_dig_R"], datatype=numpy.int64, dims=(32,)) + RCU_temperature_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_temperature_R"], datatype=numpy.float64, dims=(32,)) RCU_version_R = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_version_R"], datatype=numpy.str_, dims=(32,)) - HBA_element_beamformer_delays_R = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_beamformer_delays_R"], datatype=numpy.int64, - dims=(32, 96)) - HBA_element_beamformer_delays_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_beamformer_delays_RW"], datatype=numpy.int64, - dims=(32, 96), access=AttrWriteType.READ_WRITE) - HBA_element_pwr_R = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_pwr_R"], datatype=numpy.int64, dims=(32, 96)) - HBA_element_pwr_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:HBA_element_pwr_RW"], datatype=numpy.int64, dims=(32, 96), - access=AttrWriteType.READ_WRITE) - - RCU_monitor_rate_RW = attribute_wrapper(comms_annotation=["2:PCC", "2:RCU_monitor_rate_RW"], datatype=numpy.float64, - access=AttrWriteType.READ_WRITE) - @log_exceptions() def delete_device(self): """Hook to delete resources allocated in init_device.