Model 9080-MHE, 9080-MME, 9119-MHE, and 9119-MME server specifications

Server specifications provide detailed information for your server, including dimensions, electrical, power, temperature, environment, and service clearances.

Use the following specifications to plan for your server.

Note: Due to special safety and servicing considerations, IBM® does not support installation of 9080-MHE, 9080-MME, 9119-MHE, and 9119-MME server nodes higher than the EIA 29 position (location of the rail that supports the rack-mounted server) in any IBM or non-IBM rack. These special considerations include, but are not limited to, requirements for multiple service personnel during installation, additional required equipment such as an IBM approved lift tool and OSHA approved, non-conductive ladders, as well as specialized instructions.

Table 1. Dimensions for the system node drawer (9080-MHE, 9080-MME, 9119-MHE, and 9119-MME (FC EBA0))
Width	Depth	Height	EIA units	Weight
445 mm (17.5 in.)	902 mm (35.5 in.)	219 mm (8.6 in.)	5	76 kg (167.6 lb)

Table 2. Shipping dimensions for the system node drawer (9080-MHE and 9119-MHE (FC EBA1) and 9080-MME and 9119-MME (FC EBA0)) (without pallet)
Width	Depth	Height	Weight
635 mm (25 in.)	1085 mm (42.7 in.)	425 mm (16.7 in.)	82.7 kg (182.3 lb)

Table 3. Electrical characteristics for the system node drawer (9080-MHE and 9119-MHE (FC EBA1) and 9080-MME and 9119-MME (FC EBA0))^{1, 5, 6, 8}
Electrical characteristics	Properties
AC rated voltage and frequency²	200 - 240 V ac at 50 or 60 Hz plus or minus 3 Hz (FC EBAA)
DC rated voltage	192 - 400 V dc (FC EBAD)
Thermal output (maximum)^3,7	14160 BTU/hr
Maximum power consumption^3,7	4150 W
Maximum kVA^4,7	4.2
Phase	Single
Notes: The power supplies for AC or DC voltage do not change. Only the power chunnel is different. The power chunnel uses internal cables to carry power from the rear of the system node to the power supplies that are in the front of the system node. The power supplies automatically accept any voltage with the published, rated-voltage range. If multiple power supplies are installed and operating, the power supplies draw approximately equal current from the utility (electrical supply) and provide approximately equal current to the load. Power draw and heat load vary greatly by configuration. When you plan for an electrical system, it is important to use the maximum values. However, when you plan for heat load, you can use the IBM Systems Energy Estimator to obtain a heat output estimate based on a specific configuration. For more information, see The IBM Systems Energy Estimator website. To calculate the amperage, multiply the kVA by 1000 and divide that number by the operating voltage. Horizontally mounted power distribution units (PDUs) must be used for 9080-MHE, 9080-MME, 9119-MHE, and 9119-MME systems. Vertically mounted PDUs occupy and limit access to the cable routing space on the side of the rack and cannot be used. There are a total of four power supply units per system node drawer. The output rating for each power supply unit is 1720 watts with a 10 amp maximum current (Irms maximum). When the system is operating on only two power supplies, over subscription is not available. In this situation, the maximum values are 3300 W, 3.5 kVA, and 11263 BTU/hr. The system control unit (SCU) power consumption is included in the W, kVA, and BTU/hr values. Since the SCU derives its power from the primary system node and has a very low power consumption when compared to the overall load, it is not separated out. AC and HVDC power supplies cannot be mixed in the same server or I/O drawer. IBM recommends that AC products and HVDC products with HVDC PDUs are installed in separate racks. However, AC and HVDC products can be supported in the same rack if all grounding (earthing) is done in accordance with the applicable electrical code or codes. IBM provides documentation for different AC and HVDC products about the disconnecting means for service. If a different disconnecting means is to be used for service of the equipment in a rack with AC-powered and DC-powered products, the disconnecting means must be made clear to service.

Table 4. System control unit characteristics ^1,
2
Width	Depth	Height	EIA units	Weight
434 mm (17.1 in.)	813 mm (32.0 in.)	86 mm (3.4 in.)	2	23.6 kg (52.0 lb)
Notes: Preliminary data is subject to change. Power to the system control unit is provided from the server. The system control unit does not have its own power cord or power supplies.

Table 5. Environment requirements
Environment	Recommended operating	Allowable operating	Nonoperating
ASHRAE class		A3
Airflow direction		Front-to-back
Temperature¹	18°C - 27°C (64°F - 80°F)	5°C - 40°C (41°F - 104°F)	1°C - 60°C (34°F - 140°F)
Humidity range	5.5°C (42°F) dew point (DP) to 60% relative humidity (RH) and 15°C (59°F) dew point	-12.0°C (10.4°F) DP and 8% - 80% RH	8% - 80% RH
Maximum dew point		24°C (75°F)	27°C (80°F)
Maximum operating altitude		3050 m (10000 ft)
Shipping temperature²			-40°C to 60°C (-40°F to 140°F)
Shipping relative humidity			5% - 100%
Derate maximum allowable dry-bulb temperature 1°C per 175 m above 950 m. IBM recommends a temperature range of 18°C - 27°C (64°F - 80.6°F). The maximum wet bulb temperature is 29°C (84°F). If one or more feature codes that are listed in Table 6 are installed in your system, then the maximum wet bulb temperature is 28°C (82°F).

Table 6. Supported feature codes that affect environmental requirements¹
Feature codes (FCs)	Feature code names
1738 / EQ38	856 GB (IBM i) 10K RPM SAS HDD (Gen2-S)
1752 / EQ52	900 GB (AIX/Linux) 10K RPM SAS HDD (Gen2-S)
1917 / 1866	146 GB (AIX/Linux) 15K RPM SAS HDD (Gen2-S)
1925 / 1869	300 GB (AIX/Linux) 10K RPM SAS HDD (Gen2-S)
1947 / 1868	139 GB (IBM i) 15K RPM SAS HDD (Gen2-S)
1948 / 1927	283 GB (IBM i) 15K RPM SAS HDD (Gen2-S)
1953 / 1929	300 GB (AIX/Linux) 15K RPM SAS HDD (Gen2-S)
1956 / 1844	283 GB (IBM i) 10K RPM SAS HDD (Gen2-S)
1962 / 1817	571 GB (IBM i) 10K RPM SAS HDD (Gen2-S)
1964 / 1818	600 GB (AIX/Linux) 10K RPM SAS HDD (Gen2-S)
ESD2 / EQD2	1.14 TB (IBM i) 10K RPM SAS HDD (Gen2-S)
ESD3 / EQD3	1.2 TB (AIX/Linux) 10K RPM SAS HDD (Gen2-S)
ESDU	139 GB (IBM i) 15K RPM SAS HDD (Gen3)
ESDT	146 GB (AIX/Linux) 15K RPM SAS HDD (Gen3)
ESDA	283 GB (IBM i) 15K RPM SAS HDD (Gen3)
ESDB	300 GB (AIX/Linux) 15K RPM SAS HDD (Gen3)
ESDS	283 GB (IBM i) 10K RPM SAS HDD (Gen3)
ESDR	300 GB (AIX/Linux) 10K RPM SAS HDD (Gen3)
ESD4	571 GB (IBM i) 10K RPM SAS HDD (Gen3)
ESD5	600 GB (AIX/Linux) 10K RPM SAS HDD (Gen3)
ESD8	1.14 TB (IBM i) 10K RPM SAS HDD (Gen3)
ESD9	1.2 TB (AIX/Linux) 10K RPM SAS HDD (Gen3)
ESEY	283 GB (IBM i) 15K RPM 4KN SAS HDD (Gen2-S)
ESEZ	300 GB (AIX/Linux) 15K RPM 4KN SAS HDD (Gen2-S)
ESFA	283 GB (IBM i) 15K RPM 4KN SAS HDD (Gen3)
ESFB	300 GB (AIX/Linux) 15K RPM 4KN SAS HDD (Gen3)
ESFE	571 GB (IBM i) 15K RPM 4KN SAS HDD (Gen3)
ESFF	600 GB (AIX/Linux) 15K RPM 4KN SAS HDD (Gen3)
ESFN	571 GB (IBM i) 15K RPM 4KN SAS HDD (Gen2-S)
ESFP	600 GB (AIX/Linux) 15K RPM 4KN SAS HDD (Gen2-S)
ESDE	571 GB (IBM i) 15K RPM SAS HDD (Gen3)
ESDF	600 GB (AIX/Linux) 15K RPM SAS HDD (Gen3)
ESDN	571 GB (IBM i) 15K RPM SAS HDD (Gen2-S)
ESDP	600 GB (AIX/Linux) 15K RPM SAS HDD (Gen2-S)
Note: Any feature code that is listed in this table and is installed in your system decreases the maximum wet bulb temperature that is allowed during shipping from 29°C (84°F) to 28°C (82°F).

Table 7. Noise emissions for the 9080-MHE, 9080-MME, 9119-MHE, and 9119-MME
Product description	Declared A-weighted sound power level, L_Wad (B) ^{1, 2, 3}		Declared A-weighted sound pressure level, L_pAm (dB) ^{1, 2, 3}
	Operating	Idle	Operating	Idle
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a single drawer configuration.	7.7	7.7	60	60
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a single drawer configuration. The system is in dynamic power save (favor performance) mode with a heavy workload.	9.5⁵	9.5⁵	79⁵	79⁵
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a single drawer configuration. The system has acoustical doors (FC 6248 or 6249) installed.	7.15⁵	7.15⁵	56⁵	56⁵
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a single drawer configuration. The system is in dynamic power save (favor performance) mode with a heavy workload. The system has acoustical doors (FC 6248 or 6249) installed.	8.85⁵	8.85⁵	73⁵	73⁵
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a two-drawer configuration.	8.0⁴	8.0⁴	63⁴	63⁴
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a two-drawer configuration. The system is in dynamic power save (favor performance) mode with a heavy workload.	9.8^{4, 5}	9.8^{4, 5}	82^{4, 5}	82^{4, 5}
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a two-drawer configuration. The system has acoustical doors (FC 6248 or 6249) installed.	7.45^{4, 5}	7.45^{4, 5}	59^{4, 5}	59^{4, 5}
Model 9080-MHE, 9080-MME, 9119-MHE, or 9119-MME in a two-drawer configuration. The system is in dynamic power save (favor performance) mode with a heavy workload. The system has acoustical doors (FC 6248 or 6249) installed.	9.15^{4, 5}	9.15^{4, 5}	76^{4, 5}	76^{4, 5}
Notes: Declared level L_Wad is the upper-limit A-weighted sound power level. Declared level L_pAm is the mean A-weighted emission sound pressure level that is measured at the 1-meter bystander positions. All measurements made in conformance with ISO 7779 and declared in conformance with ISO 9296. 10 dB (decibel) equals 1 B (bel). Estimated. Notice: Government regulations (such as those prescribed by OSHA or European Community Directives) might govern noise level exposure in the workplace and might apply to you and your server installation. This IBM system is available in racks FC 7014-T00 and 7014-T42 with an optional acoustical door feature that can help reduce the noise that is emitted from this system. The actual sound pressure levels in your installation depend upon various factors, including the number of racks in the installation; the size, materials, and configuration of the room where you designate the racks to be installed; the noise levels from other equipment; the room ambient temperature, and employees' location in relation to the equipment. Further, compliance with such government regulations also depends upon various extra factors, including the duration of employees' exposure and whether employees wear hearing protection. IBM recommends that you consult with qualified experts in this field to determine whether you are in compliance with the applicable regulations. A 1.0 B increase in the L_Wad for a product equals a sound that is approximately twice as loud or twice as noisy.

Table 8. Service clearances
Clearances	Front	Rear	Side¹	Top¹
Operating	762 mm (30 in.)	762 mm (30 in.)
Nonoperating	1219 mm (48 in.)²	762 mm (30 in.)	1219 mm (48 in.)²	762 mm (30 in.)
¹ Side and top clearances are optional during operation. ² A service gap of 1219 mm (48 in.) is required in the front of the rack and between racks when servicing the system backplane.

Electromagnetic compatibility compliance: CISPR 22; CISPR 24; FCC, CFR 47, Part 15 (US); VCCI (Japan); Directive 2004/108/EC (EEA); ICES-003, Issue 4 (Canada); ACMA radio communications standard (Australia, New Zealand); CNS 13438 (Taiwan); Radio Waves Act, MIC Rule No. 210 (Korea); Commodity Inspection Law (China); TCVN 7189 (Vietnam); MoCI (Saudi Arabia); SI 961 (Israel); GOST R 51318.22, 51318.24 (Russia)

Model 9080-MHE, 9080-MME, 9119-MHE, and 9119-MME systems must be installed in a rack with a rear door and side panels for electromagnetic interference (EMI) compliance. The native Hardware Management Console (HMC) Ethernet ports must use shielded Ethernet cables.

Safety compliance: UL 60950-1:2007 Underwriters Laboratory; CAN/CSA22.2 No. 60950-1-07; EN60950-1:2006 European Norm; IEC 60950-1 2nd Edition and all National Differences

Special Hardware Management Console considerations

When the server is managed by an HMC, the console must be provided within the same room and within 8 m (26 ft) of the server. For more considerations, see Installing and configuring the HMC.

Note: As an alternative to the local HMC requirement, you can provide a supported device, such as a PC, with connectivity and authority to operate through a remotely attached HMC. This local device must be in the same room and within 8 m (26 ft) of your server. This local device must provide functional capabilities that are equivalent to the HMC that it replaces. This local device is needed by the service representative to service the system.

Last updated: Tue, February 02, 2021