IBM x3650, w/ FreeBSD 6.2 # ipmi-sel --debug ===================================================== Get SDR Repository Info Request ===================================================== [ 20h] = cmd[ 8b] ===================================================== Get SDR Repository Info Response ===================================================== [ 20h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 7Ah] = record_count[16b] [ D5Bh] = free_space[16b] [ 0h] = most_recent_addition_timestamp[32b] [ 0h] = most_recent_erase_timestamp[32b] [ 0h] = get_sdr_repository_allocation_info_command_supported[ 1b] [ 1h] = reserve_sdr_repository_command_supported[ 1b] [ 0h] = partial_add_sdr_command_supported[ 1b] [ 0h] = delete_sdr_command_supported[ 1b] [ 0h] = reserved[ 1b] [ 0h] = modal_non_modal_sdr_repository_update_operation_supported[ 2b] [ 0h] = overflow_flag[ 1b] ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 0h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 2h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 01h 00h E1h 00h 00h 00h 00h 00h ] [ E3h 25h 86h 80h 00h 00h FFh 00h ] 1:OEM defined = 00 00 00 00 00 E3 25 86 80 00 00 FF 00 ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 2h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 3h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 02h 00h E1h 00h 00h 00h 00h 00h ] [ E3h 25h 86h 80h 00h 00h FFh 00h ] 2:OEM defined = 00 00 00 00 00 E3 25 86 80 00 00 FF 00 ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 3h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 4h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 03h 00h E2h 02h 00h 00h FFh 00h ] [ 00h 00h 00h 20h 00h 00h 00h 00h ] 3:OEM defined = 02 00 00 FF 00 00 00 00 20 00 00 00 00 ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 4h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 5h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 04h 00h E1h 00h 00h 00h 00h 00h ] [ E3h 25h 86h 80h 00h 00h FFh 00h ] 4:OEM defined = 00 00 00 00 00 E3 25 86 80 00 00 FF 00 ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 5h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 6h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 05h 00h 02h CAh DAh 7Ah 49h 20h ] [ 00h 04h 23h 03h 6Fh C1h 04h FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Eh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 23h] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 3h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 23h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ Fh] = assertion_event_lower_threshold_reading_mask[16b] [ 0h] = deassertion_event_upper_threshold_reading_mask[16b] [ Fh] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ C8h] = id_string_type_length_code[ 8b] [676F646863746157h] = id_string[64b] 5:24-Jan-2009 17:09:30:Watchdog 2 Watchdog:Hard Reset ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 6h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 7h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 06h 00h E1h 00h 00h 00h 00h 00h ] [ E3h 25h 86h 80h 00h 00h FFh 00h ] 6:OEM defined = 00 00 00 00 00 E3 25 86 80 00 00 FF 00 ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 7h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 8h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 07h 00h 02h 09h 2Ah 7Dh 49h 20h ] [ 00h 04h 09h 01h 6Fh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 7:26-Jan-2009 11:12:09:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 8h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 9h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 08h 00h 02h 13h 2Ah 7Dh 49h 20h ] [ 00h 04h 09h 01h EFh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 8:26-Jan-2009 11:12:19:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 9h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ Ah] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 09h 00h E1h 00h 00h 00h 00h 00h ] [ E3h 25h 86h 80h 00h 00h FFh 00h ] 9:OEM defined = 00 00 00 00 00 E3 25 86 80 00 00 FF 00 ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ Ah] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ Bh] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 0Ah 00h 02h 13h 54h 7Dh 49h 20h ] [ 00h 04h 09h 01h 6Fh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 10:26-Jan-2009 14:11:31:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ Bh] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ Ch] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 0Bh 00h 02h 1Dh 54h 7Dh 49h 20h ] [ 00h 04h 09h 01h EFh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 11:26-Jan-2009 14:11:41:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ Ch] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ Dh] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 0Ch 00h 02h 7Fh 8Dh 7Dh 49h 20h ] [ 00h 04h 09h 01h 6Fh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 12:26-Jan-2009 18:16:31:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ Dh] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ Eh] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 0Dh 00h 02h 89h 8Dh 7Dh 49h 20h ] [ 00h 04h 09h 01h EFh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 13:26-Jan-2009 18:16:41:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ Eh] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ Fh] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 0Eh 00h 02h 93h 8Dh 7Dh 49h 20h ] [ 00h 04h 09h 01h 6Fh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 14:26-Jan-2009 18:16:51:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ Fh] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 10h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 0Fh 00h 02h F9h 90h 7Dh 49h 20h ] [ 00h 04h 09h 01h EFh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 15:26-Jan-2009 18:31:21:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 10h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ 11h] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 10h 00h 02h 6Bh 92h 7Dh 49h 20h ] [ 00h 04h 09h 01h 6Fh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 16:26-Jan-2009 18:37:31:Power Unit Sys pwr monitor:Power Off/Power Down ===================================================== Get SEL Entry Request ===================================================== [ 43h] = cmd[ 8b] [ 0h] = reservation_id[16b] [ 11h] = record_id[16b] [ 0h] = offset_into_record[ 8b] [ FFh] = bytes_to_read[ 8b] ===================================================== Get SEL Entry Response ===================================================== [ 43h] = cmd[ 8b] [ 0h] = comp_code[ 8b] [ FFFFh] = next_record_id[16b] [ BYTE ARRAY ... ] = record_data[16B] [ 11h 00h 02h ABh 93h 7Dh 49h 20h ] [ 00h 04h 09h 01h EFh 00h FFh FFh ] ===================================================== SDR Compact Sensor Record ===================================================== [ 3Dh] = record_id[16b] [ 1h] = sdr_version_major[ 4b] [ 5h] = sdr_version_minor[ 4b] [ 2h] = record_type[ 8b] [ 2Ah] = record_length[ 8b] [ 0h] = sensor_owner_id.type[ 1b] [ 10h] = sensor_owner_id[ 7b] [ 0h] = sensor_owner_lun[ 2b] [ 0h] = sensor_owner_lun.reserved[ 2b] [ 0h] = channel_number[ 4b] [ 1h] = sensor_number[ 8b] [ 7h] = entity_id[ 8b] [ 1h] = instance_number_for_entity[ 7b] [ 0h] = treat_entity[ 1b] [ 1h] = sensor_initialization.sensor_scanning[ 1b] [ 1h] = sensor_initialization.event_generation[ 1b] [ 1h] = sensor_initialization.init_sensor_type[ 1b] [ 0h] = sensor_initialization.init_hysteresis[ 1b] [ 0h] = sensor_initialization.init_thresholds[ 1b] [ 1h] = sensor_initialization.init_events[ 1b] [ 1h] = sensor_initialization.init_scanning[ 1b] [ 0h] = sensor_initialization.reserved[ 1b] [ 0h] = sensor_capabilities.event_message_control_support[ 2b] [ 0h] = sensor_capabilities.threshold_access_support[ 2b] [ 0h] = sensor_capabilities.hysteresis_support[ 2b] [ 1h] = sensor_capabilities.auto_re_arm_support[ 1b] [ 0h] = sensor_capabilities.entity_ignore_support[ 1b] [ 9h] = sensor_type[ 8b] [ 6Fh] = event_reading_type_code[ 8b] [ 13h] = assertion_event_lower_threshold_reading_mask[16b] [ 13h] = deassertion_event_upper_threshold_reading_mask[16b] [ 13h] = discrete_reading_settable_threshold_readable_threshold_mas k[16b] [ 0h] = sensor_unit1.percentage[ 1b] [ 0h] = sensor_unit1.modifier_unit[ 2b] [ 0h] = sensor_unit1.rate_unit[ 3b] [ 3h] = sensor_unit1.analog_data_format[ 2b] [ 0h] = sensor_unit2.base_unit[ 8b] [ 0h] = sensor_unit3.modifier_unit[ 8b] [ 1h] = share_count[ 4b] [ 0h] = id_string_instance_modifier_type[ 2b] [ 0h] = sensor_direction[ 2b] [ 0h] = id_string_instance_modifier_offset[ 7b] [ 0h] = entity_instance_sharing[ 1b] [ 0h] = positive_going_threshold_hysteresis[ 8b] [ 0h] = negative_going_threshold_hysteresis[ 8b] [ 0h] = reserved[24b] [ 0h] = oem[ 8b] [ CFh] = id_string_type_length_code[ 8b] [ BYTE ARRAY ... ] = id_string[15B] [ 53h 79h 73h 20h 70h 77h 72h 20h ] [ 6Dh 6Fh 6Eh 69h 74h 6Fh 72h ] 17:26-Jan-2009 18:42:51:Power Unit Sys pwr monitor:Power Off/Power Down # dmidecode # dmidecode 2.8 SMBIOS 2.4 present. 113 structures occupying 5083 bytes. Table at 0x3FFCEAC0. Handle 0x0000, DMI type 0, 24 bytes BIOS Information Vendor: IBM Version: -[GGE131AUS-1.06]- Release Date: 08/09/2007 Address: 0xF1A50 Runtime Size: 58800 bytes ROM Size: 4096 kB Characteristics: PCI is supported BIOS is upgradeable BIOS shadowing is allowed Boot from CD is supported Selectable boot is supported Japanese floppy for NEC 9800 1.2 MB is supported (int 13h) Japanese floppy for Toshiba 1.2 MB is supported (int 13h) 5.25"/360 KB floppy services are supported (int 13h) 5.25"/1.2 MB floppy services are supported (int 13h) 3.5"/720 KB floppy services are supported (int 13h) 3.5"/2.88 MB floppy services are supported (int 13h) Print screen service is supported (int 5h) 8042 keyboard services are supported (int 9h) Serial services are supported (int 14h) Printer services are supported (int 17h) CGA/mono video services are supported (int 10h) ACPI is supported USB legacy is supported I2O boot is supported LS-120 boot is supported Function key-initiated network boot is supported Targeted content distribution is supported BIOS Revision: 1.6 Firmware Revision: 1.33 Handle 0x0001, DMI type 1, 27 bytes System Information Manufacturer: IBM Product Name: IBM System x3650 -[7979IDS]- Version: Not Specified Serial Number: 99P7030 UUID: 40DBDA06-685B-B601-3F38-001A64671D24 Wake-up Type: Power Switch SKU Number: Not Specified Family: Not Specified Handle 0x0002, DMI type 2, 147 bytes Base Board Information Manufacturer: IBM Product Name: System Planar Version: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Features: Board is a hosting board Board is replaceable Location In Chassis: Rear Bottom Chassis Handle: 0x0008 Type: Motherboard Contained Object Handles: 66 0x0003 0x0004 0x0005 0x0006 0x0007 0x000D 0x000E 0x000F 0x0010 0x0011 0x0012 0x0013 0x0014 0x0015 0x0016 0x0017 0x0018 0x0019 0x001A 0x001B 0x001C 0x001D 0x001E 0x001F 0x0020 0x0021 0x0022 0x0023 0x0024 0x0025 0x0026 0x0029 0x002A 0x002B 0x002C 0x002D 0x002E 0x0030 0x0031 0x0037 0x0038 0x0039 0x003A 0x003C 0x003D 0x003E 0x003F 0x0040 0x0041 0x0042 0x0043 0x0044 0x0045 0x0046 0x0047 0x0048 0x004A 0x0064 0x0065 0x0066 0x0067 0x0068 0x0069 0x006B 0x006C 0x0073 Handle 0x0003, DMI type 2, 27 bytes Base Board Information Manufacturer: IBM Product Name: Power Suppy Backplane Version: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Features: Board is replaceable Location In Chassis: Attached to System Planar, Front Right Chassis Handle: 0x0008 Type: Interconnect Board Contained Object Handles: 6 0x0027 0x0028 0x002F 0x0032 0x006A 0x006D Handle 0x0005, DMI type 2, 19 bytes Base Board Information Manufacturer: IBM Product Name: PCI-X Riser Card, Slots 1 & 2 Version: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Features: Board is replaceable Location In Chassis: Attached to System Planar, Rear Center Chassis Handle: 0x0008 Type: Interconnect Board Contained Object Handles: 2 0x0035 0x0036 Handle 0x0008, DMI type 3, 21 bytes Chassis Information Manufacturer: IBM Type: Main Server Chassis Lock: Not Present Version: Not Specified Serial Number: Not Specified Asset Tag: Boot-up State: Safe Power Supply State: Unknown Thermal State: Unknown Security Status: Unknown OEM Information: 0x00000000 Heigth: 2 U Number Of Power Cords: 2 Contained Elements: 0 Handle 0x0009, DMI type 7, 19 bytes Cache Information Socket Designation: Internal L1 Cache Configuration: Enabled, Not Socketed, Level 1 Operational Mode: Write Back Location: Internal Installed Size: 16 KB Maximum Size: 16 KB Supported SRAM Types: Synchronous Installed SRAM Type: Synchronous Speed: Unknown Error Correction Type: Single-bit ECC System Type: Unified Associativity: 4-way Set-associative Handle 0x000A, DMI type 7, 19 bytes Cache Information Socket Designation: Internal L2 Cache Configuration: Enabled, Not Socketed, Level 2 Operational Mode: Write Back Location: Internal Installed Size: 2048 KB Maximum Size: 2048 KB Supported SRAM Types: Burst Installed SRAM Type: Burst Speed: Unknown Error Correction Type: Single-bit ECC System Type: Unified Associativity: 8-way Set-associative Handle 0x000B, DMI type 7, 19 bytes Cache Information Socket Designation: Internal L1 Cache Configuration: Enabled, Not Socketed, Level 1 Operational Mode: Write Back Location: Internal Installed Size: 0 KB Maximum Size: 32 KB Supported SRAM Types: Synchronous Installed SRAM Type: Synchronous Speed: Unknown Error Correction Type: Single-bit ECC System Type: Unified Associativity: 4-way Set-associative Handle 0x000C, DMI type 7, 19 bytes Cache Information Socket Designation: Internal L2 Cache Configuration: Enabled, Not Socketed, Level 2 Operational Mode: Write Back Location: Internal Installed Size: 0 KB Maximum Size: 8192 KB Supported SRAM Types: Burst Installed SRAM Type: Burst Speed: Unknown Error Correction Type: Single-bit ECC System Type: Unified Associativity: 8-way Set-associative Handle 0x000D, DMI type 4, 35 bytes Processor Information Socket Designation: CPU 1 Type: Central Processor Family: Xeon Manufacturer: GenuineIntel ID: 64 0F 00 00 01 03 00 00 Signature: Type 0, Family 15, Model 6, Stepping 4 Flags: FPU (Floating-point unit on-chip) CX8 (CMPXCHG8 instruction supported) APIC (On-chip APIC hardware supported) Version: Intel Xeon Voltage: 1.2 V External Clock: 266 MHz Max Speed: 3733 MHz Current Speed: 3000 MHz Status: Populated, Enabled Upgrade: ZIF Socket L1 Cache Handle: 0x0009 L2 Cache Handle: 0x000A L3 Cache Handle: Not Provided Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x000E, DMI type 4, 35 bytes Processor Information Socket Designation: CPU 2 Type: Unknown Family: Unknown Manufacturer: Not Specified ID: 00 00 00 00 00 00 00 00 Version: Not Specified Voltage: 1.2 V External Clock: 266 MHz Max Speed: 3733 MHz Current Speed: 3000 MHz Status: Unpopulated Upgrade: ZIF Socket L1 Cache Handle: 0x000B L2 Cache Handle: 0x000C L3 Cache Handle: Not Provided Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x000F, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J4 Internal Connector Type: Access Bus (USB) External Reference Designator: USB 1 External Connector Type: Access Bus (USB) Port Type: USB Handle 0x0010, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J5 Internal Connector Type: Access Bus (USB) External Reference Designator: USB 2 External Connector Type: Access Bus (USB) Port Type: USB Handle 0x0011, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J43 Internal Connector Type: Access Bus (USB) External Reference Designator: USB 3 External Connector Type: Access Bus (USB) Port Type: USB Handle 0x0012, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J43 Internal Connector Type: Access Bus (USB) External Reference Designator: USB 4 External Connector Type: Access Bus (USB) Port Type: USB Handle 0x0013, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J80 Internal Connector Type: Other External Reference Designator: USB 5 External Connector Type: Access Bus (USB) Port Type: USB Handle 0x0014, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J80 Internal Connector Type: Other External Reference Designator: USB 6 External Connector Type: Access Bus (USB) Port Type: USB Handle 0x0015, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: USB J82 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: USB Handle 0x0016, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Video J9 Internal Connector Type: DB-15 female External Reference Designator: Video 1 External Connector Type: DB-15 female Port Type: Video Port Handle 0x0017, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Video J51 Internal Connector Type: Other External Reference Designator: Video 2 External Connector Type: DB-15 female Port Type: Video Port Handle 0x0018, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Operator Panel J50 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0019, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: IDE/Parallel ATA J37 Internal Connector Type: On Board IDE External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x001A, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: IDE/Power J12 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x001B, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Floppy Diskette J41 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x001C, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: SAS J92 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x001D, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: SAS J91 Internal Connector Type: Other External Reference Designator: SAS External Connector Type: Other Port Type: Other Handle 0x001E, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Serial J3 Internal Connector Type: DB-9 male External Reference Designator: Serial External Connector Type: DB-9 male Port Type: Serial Port 16550A Compatible Handle 0x001F, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: 10/100/1000 Ethernet J40 Internal Connector Type: RJ-45 External Reference Designator: 10/100/1000 Ethernet 1 External Connector Type: RJ-45 Port Type: Network Port Handle 0x0020, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: 10/100/1000 Ethernet J39 Internal Connector Type: RJ-45 External Reference Designator: 10/100/1000 Ethernet 2 External Connector Type: RJ-45 Port Type: Network Port Handle 0x0021, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: BMC Ethernet J40 Internal Connector Type: RJ-45 External Reference Designator: BMC Ethernet External Connector Type: RJ-45 Port Type: Network Port Handle 0x0022, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: RSA Ethernet J46 Internal Connector Type: RJ-45 External Reference Designator: RSA Ethernet External Connector Type: RJ-45 Port Type: Network Port Handle 0x0023, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: ServeRAID Adapter J38 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0024, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: PCI-Express/X Riser J52 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0025, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Remote Supervisor Adapter J1 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0026, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Power Supply Backplane J42 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0027, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Power Supply Backplane J86 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0028, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: SAS/Power J88 Internal Connector Type: Other External Reference Designator: Not Specified External Connector Type: None Port Type: Other Handle 0x0029, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J36 Internal Connector Type: Other External Reference Designator: Fan 1 External Connector Type: Other Port Type: Other Handle 0x002A, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J35 Internal Connector Type: Other External Reference Designator: Fan 2 External Connector Type: Other Port Type: Other Handle 0x002B, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J32 Internal Connector Type: Other External Reference Designator: Fan 3 External Connector Type: Other Port Type: Other Handle 0x002C, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J33 Internal Connector Type: Other External Reference Designator: Fan 4 External Connector Type: Other Port Type: Other Handle 0x002D, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J29 Internal Connector Type: Other External Reference Designator: Fan 5 External Connector Type: Other Port Type: Other Handle 0x002E, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J34 Internal Connector Type: Other External Reference Designator: Fan 6 External Connector Type: Other Port Type: Other Handle 0x002F, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Not Specified Internal Connector Type: None External Reference Designator: Fan 7 External Connector Type: Other Port Type: Other Handle 0x0030, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J27 Internal Connector Type: Other External Reference Designator: Fan 8 External Connector Type: Other Port Type: Other Handle 0x0031, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Fan J28 Internal Connector Type: Other External Reference Designator: Fan 9 External Connector Type: Other Port Type: Other Handle 0x0032, DMI type 8, 9 bytes Port Connector Information Internal Reference Designator: Not Specified Internal Connector Type: None External Reference Designator: Fan 10 External Connector Type: Other Port Type: Other Handle 0x0033, DMI type 9, 13 bytes System Slot Information Designation: PCI-Express 8x/8x Slot 1 Type: x8 PCI Express Current Usage: Available Length: Long Characteristics: 3.3 V is provided PME signal is supported Handle 0x0035, DMI type 9, 13 bytes System Slot Information Designation: 133MHz PCI-X Slot 2 Type: 64-bit PCI-X Current Usage: Available Length: Short ID: 2 Characteristics: 3.3 V is provided PME signal is supported Handle 0x0036, DMI type 9, 13 bytes System Slot Information Designation: 133MHz PCI-X Slot 1 Type: 64-bit PCI-X Current Usage: Available Length: Long ID: 1 Characteristics: 3.3 V is provided PME signal is supported Handle 0x0037, DMI type 9, 13 bytes System Slot Information Designation: PCI-Express 8x/4x Slot 3 (J7) Type: x8 PCI Express Current Usage: Available Length: Short Characteristics: 3.3 V is provided PME signal is supported Handle 0x0038, DMI type 9, 13 bytes System Slot Information Designation: PCI-Express 8x/4x Slot 4 (J8) Type: x8 PCI Express Current Usage: Available Length: Short Characteristics: 3.3 V is provided PME signal is supported Handle 0x0039, DMI type 10, 12 bytes On Board Device 1 Information Type: Other Status: Enabled Description: Baseboard Management Controller On Board Device 2 Information Type: Video Status: Enabled Description: ATI RN50 Video Controller On Board Device 3 Information Type: Ethernet Status: Enabled Description: Broadcom BCM5715C Ethernet Controller On Board Device 4 Information Type: SCSI Controller Status: Disabled Description: Adaptec AIC9580W SAS Controller Handle 0x003A, DMI type 11, 5 bytes OEM Strings String 1: IBM Diagnostics -[GGYT25AUS]- Handle 0x003B, DMI type 11, 5 bytes OEM Strings String 1: Handle 0x003C, DMI type 12, 5 bytes System Configuration Options Option 1: J42: System BIOS Recovery Option 2: Jumper between pins 1-2: Boot from Primary System BIOS image (Default) Option 3: Jumper between pins 2-3: Boot from Backup System BIOS image (Recovery) Option 4: Changing jumper position before system power on will change, Option 5: which System BIOS image is used, when the system is started. Option 6: Changing jumper position after system power on is NOT permitted. Handle 0x003D, DMI type 12, 5 bytes System Configuration Options Option 1: SW1: Force System NMI Option 2: Switch Off: Normal Operation (Default) Option 3: Switch Press: Force System NMI Handle 0x003E, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-1: Clear RTC CMOS Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Clear RTC CMOS Handle 0x003F, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-2: Force RSA SMI Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Force RSA SMI Handle 0x0040, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-3: Force BMC Reset Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Force BMC Reset Handle 0x0041, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-4: Force BMC Update Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Force BMC Update (Recovery) Handle 0x0042, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-5: Ignore Power On Password (POP) Option 2: Switch Toggle: Enter Setup Utility Without POP On Next Boot Handle 0x0043, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-6: Force Power On Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Force Power On (Override Power On/Off Switch) Handle 0x0044, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-7: Execute RSA BIST Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Execute RSA BIST Handle 0x0045, DMI type 12, 5 bytes System Configuration Options Option 1: SW2-8: Enable PSoC Debug Mode Option 2: Switch Off: Normal Operation (Default) Option 3: Switch On: Enable PSoC Debug Mode Handle 0x0046, DMI type 12, 5 bytes System Configuration Options Option 1: SW3-1: Enable Wake On Lan (WOL) Option 2: Switch Off: WOL Enabled, If Setup Option Enabled (Default) Option 3: Switch On: WOL Enabled, Regardless Of Setup Option (Override PSoC) Handle 0x0047, DMI type 12, 5 bytes System Configuration Options Option 1: SW3-2: Not Connected Handle 0x0048, DMI type 12, 5 bytes System Configuration Options Option 1: SW3-3+4: Maximum Fan Speed Option 2: Switch Off+Off: 100% Duty Cycle (Default) Option 3: Switch On+On: Not Permitted Handle 0x0049, DMI type 13, 22 bytes BIOS Language Information Installable Languages: 1 en|US|iso8859-1 Currently Installed Language: en|US|iso8859-1 Handle 0x004A, DMI type 16, 15 bytes Physical Memory Array Location: System Board Or Motherboard Use: System Memory Error Correction Type: Multi-bit ECC Maximum Capacity: 65024 MB Error Information Handle: Not Provided Number Of Devices: 12 Handle 0x004B, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: 512 MB Form Factor: DIMM Set: 1 Locator: DIMM 1 Bank Locator: Bank 1 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x004C, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: 512 MB Form Factor: DIMM Set: 3 Locator: DIMM 4 Bank Locator: Bank 1 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x004D, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 5 Locator: DIMM 2 Bank Locator: Bank 3 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x004E, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 1 Locator: DIMM 5 Bank Locator: Bank 3 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x004F, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 3 Locator: DIMM 3 Bank Locator: Bank 5 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0050, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 5 Locator: DIMM 6 Bank Locator: Bank 5 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0051, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 2 Locator: DIMM 7 Bank Locator: Bank 2 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0052, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 4 Locator: DIMM 10 Bank Locator: Bank 2 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0053, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 6 Locator: DIMM 8 Bank Locator: Bank 4 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0054, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 2 Locator: DIMM 11 Bank Locator: Bank 4 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0055, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 4 Locator: DIMM 9 Bank Locator: Bank 6 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0056, DMI type 17, 27 bytes Memory Device Array Handle: 0x004A Error Information Handle: Not Provided Total Width: 72 bits Data Width: 64 bits Size: No Module Installed Form Factor: DIMM Set: 6 Locator: DIMM 12 Bank Locator: Bank 6 Type: DDR2 Type Detail: Synchronous Speed: 266 MHz (3.8 ns) Manufacturer: Not Specified Serial Number: Not Specified Asset Tag: Not Specified Part Number: Not Specified Handle 0x0057, DMI type 19, 15 bytes Memory Array Mapped Address Starting Address: 0x00000000000 Ending Address: 0x3C03FFFFFFF Range Size: 3841 GB Physical Array Handle: 0x004A Partition Width: 0 Handle 0x0058, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00000000000 Ending Address: 0x0003FFFFFFF Range Size: 1 GB Physical Device Handle: 0x004B Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 1 Interleave Position: 1 Interleaved Data Depth: 1 Handle 0x0059, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00000000000 Ending Address: 0x0003FFFFFFF Range Size: 1 GB Physical Device Handle: 0x004C Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 1 Interleave Position: 1 Interleaved Data Depth: 1 Handle 0x005A, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x004D Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 1 Interleave Position: 1 Interleaved Data Depth: 1 Handle 0x005B, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x004E Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 2 Interleave Position: 1 Interleaved Data Depth: 1 Handle 0x005C, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x004F Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 2 Interleave Position: 1 Interleaved Data Depth: 1 Handle 0x005D, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0050 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 2 Interleave Position: 1 Interleaved Data Depth: 1 Handle 0x005E, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0051 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 1 Interleave Position: 2 Interleaved Data Depth: 1 Handle 0x005F, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0052 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 1 Interleave Position: 2 Interleaved Data Depth: 1 Handle 0x0060, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0053 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 1 Interleave Position: 2 Interleaved Data Depth: 1 Handle 0x0061, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0054 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 2 Interleave Position: 2 Interleaved Data Depth: 1 Handle 0x0062, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0055 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 2 Interleave Position: 2 Interleaved Data Depth: 1 Handle 0x0063, DMI type 20, 19 bytes Memory Device Mapped Address Starting Address: 0x00040000000 Ending Address: 0x000400003FF Range Size: 1 kB Physical Device Handle: 0x0056 Memory Array Mapped Address Handle: 0x0057 Partition Row Position: 2 Interleave Position: 2 Interleaved Data Depth: 1 Handle 0x0064, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 1 OEM-specific Information: 0x00000001 Nominal Speed: 800 rpm Handle 0x0065, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 2 OEM-specific Information: 0x00000002 Nominal Speed: 800 rpm Handle 0x0066, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 1 OEM-specific Information: 0x00000003 Nominal Speed: 800 rpm Handle 0x0067, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 2 OEM-specific Information: 0x00000004 Nominal Speed: 800 rpm Handle 0x0068, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 3 OEM-specific Information: 0x00000005 Nominal Speed: 800 rpm Handle 0x0069, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 4 OEM-specific Information: 0x00000006 Nominal Speed: 800 rpm Handle 0x006A, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 4 OEM-specific Information: 0x00000007 Nominal Speed: 800 rpm Handle 0x006B, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 3 OEM-specific Information: 0x00000008 Nominal Speed: 800 rpm Handle 0x006C, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 4 OEM-specific Information: 0x00000009 Nominal Speed: 800 rpm Handle 0x006D, DMI type 27, 14 bytes Cooling Device Type: Fan Status: Unknown Cooling Unit Group: 4 OEM-specific Information: 0x0000000A Nominal Speed: 800 rpm Handle 0x006E, DMI type 32, 11 bytes System Boot Information Status: No errors detected Handle 0x006F, DMI type 37, 16 bytes Memory Channel Type: Synclink Maximal Load: 3 Devices: 3 Device 1 Load: 1 Device 1 Handle: 0x004C Device 2 Load: 1 Device 2 Handle: 0x004D Device 3 Load: 0 Device 3 Handle: 0x2500 Handle 0x0070, DMI type 37, 16 bytes Memory Channel Type: Synclink Maximal Load: 3 Devices: 3 Device 1 Load: 1 Device 1 Handle: 0x004F Device 2 Load: 1 Device 2 Handle: 0x0050 Device 3 Load: 0 Device 3 Handle: 0x2500 Handle 0x0071, DMI type 37, 16 bytes Memory Channel Type: Synclink Maximal Load: 3 Devices: 3 Device 1 Load: 1 Device 1 Handle: 0x0052 Device 2 Load: 1 Device 2 Handle: 0x0053 Device 3 Load: 0 Device 3 Handle: 0x2500 Handle 0x0072, DMI type 37, 16 bytes Memory Channel Type: Synclink Maximal Load: 3 Devices: 3 Device 1 Load: 1 Device 1 Handle: 0x0055 Device 2 Load: 1 Device 2 Handle: 0x0056 Device 3 Load: 0 Device 3 Handle: 0x2600 Handle 0x0073, DMI type 38, 18 bytes IPMI Device Information Interface Type: KCS (Keyboard Control Style) Specification Version: 2.0 I2C Slave Address: 0x10 NV Storage Device: Not Present Base Address: 0x0000000000000CA8 (I/O) Register Spacing: 32-bit Boundaries Handle 0x0074, DMI type 127, 4 bytes End Of Table