Advantech MIC-5333M-P01 Advancedtca, dual socket cpu blade with intelâ® xeonâ® e5 series processors, dual-dual 40g fabric interface and acceleration support Datasheet

MIC-5333
AdvancedTCA, Dual Socket CPU Blade with
Intel® Xeon® E5 Series Processors, Dual-Dual
40G Fabric Interface and Acceleration Support
Features
Preliminary
ƒƒ Two 8-Core Intel® Xeon® E5 Series processors
ƒƒ Intel® Communications Chipset 89xx Series
ƒƒ Eight DDR3 VLP DIMMs with ECC support
ƒƒ Up to four 40GBaseKR4 ports on Fabric interface to support Dual-Dual Star
Topology
ƒƒ Other fabric configurations supported via two Fabric Mezzanine sites (type I)
ƒƒ Two 10/100/1000BASE-T front panel ports
ƒƒ One Fabric Mezzanine Module (type II) for optional front IO or additional
acceleration
ƒƒ Fully managed, hot swappable RTM with 36 PCIe gen.3 lanes
RoHS
COMPLIANT
2002/95/EC
Introduction
Advantech’s MIC-5333 is a 40G dual processor ATCA blade based on the Intel® platform for communications infrastructure, formerly codenamed "Crystal Forest". It enables the
highest network and packet processing performance available in ATCA form factor with up to 16 cores and 32 threads of processing power, scalable offload based on Intel® QuickAssist
technology and support for up to four 40G fabric ports. Fast PCI Express gen. 3 technology running at up to 8Gbps per lane and best in class virtualization support combined with
superior thermal design make it ideal for high performance applications and workload consolidation on Intel® architecture.
Two QPI interfaces between the CPUs improve memory and I/O access throughput and latencies when one processor needs to access resources hosted by the other socket. With
four DDR3 DIMMs per socket in a quad channel design running up to 1600MT/s, the MIC-5333 not only offers superior memory bandwidth over 3-channel designs, but can also
support memory densities up 256GB using latest LR DIMM technology. It outperforms previous generation dual socket designs while keeping similar thermal characteristics with
balanced airflow resistance.
Fabric connectivity is implemented using up to two FMM type I sites, each site connecting to two backplane fabric channels. This allows the MIC-5333 to scale from legacy 10GE to
high speed 40GE network interfaces as well as optional dual dual star support for the most demanding applications in high end data and enterprise networking utilizing 4 hub blades
per system. A variety of standard FMMs can be used to implement 10GBaseKX4,multiple 10GBaseKR & 40GBaseKR4 interfaces. Beyond that, a Fabric Mezzanine Module type II
socket with PCIe x8 connectivity provides extension possibilities for additional front port I/O, offload and acceleration controllers such as the Intel® Communications Chipset 89xx
Series, IPSec offload engines or customer specific logic. FMMs have higher PCI Express bandwidth than AMCs, and integrate better in terms of thermal design, cost and board real
estate. Moreover, FMMs can be reused on RTMs and across different blade designs. This unmatched flexibility combined with the highest performance Intel® Xeons available make
the MIC-5333 equally well suited for application and data plane workloads.
The onboard IPMI firmware based on Advantech’s IPMI core offer greater modularity and flexibility for the customization of system management features, and provides the framework
for added value features enhancing Reliability, Availability, Serviceability, Usability and Manageability (RASUM) of the product. HPM.1 based updates are available for all programmable
components (BIOS, BIOS Settings, IPMC firmware, FPGA) including rollback support. Advantech’s IPMI solution, combined with an optimized UEFI BIOS continues to offer advanced
features used on previous generation MIC-532x blades, such as Dynamic Power Budgeting, BIOS redundancy, Real Time Clock Synchronization, CMOS Backup, CMOS Override and
MAC Mirroring. Advantech IPMI firmware has been tested for CP-TA compliance using the Polaris Networks ATCA Test Suite and against a variety of AdvancedTCA shelf management
solutions.
The MIC-5333 connects 36 PCIe gen.3 lanes to the zone 3 interface for a maximum of IO bandwidth to hot-swappable RTMs such as the RTM-5104, supporting rear I/O connectivity
and an optional FMM (Fabric Mezzanine Module). Please contact Advantech for more information on available RTMs. On-board FPGA design facilitates customer-specific modifications
and the core board design can be modified or adapted to other form factors through Advantech’s DMS customization services.
FMM Site for
40Gb/10Gb Fabric
Interface
Eight DDR3
VLP DIMMs
FMM Site for
I/O extension
Two USB ports
RJ-45 console port
Double Size FMM
(1 FMM-5001Q)
Dual MO-297 SSD
Single Size FMMs
(FMM-5004M)
2 SFP+ Output
(FMM-5001F)
User/Status LEDs
Two 10/100/1000BASE-T ports
mini-USB console port
All product specifications are subject to change without notice
Last updated : 19-Oct-2012
MIC-5333
Specifications
CPU
Max. Speed
Processor System
Memory
Zone 2
Front I/O Interface
Operating System
IPMC
Watchdog Timer
FMM
Miscellaneous
Chipset
BIOS
QPI
Technology
Max. Capacity
Socket
Fabric Interface
Base Interface
Serial (COM)
Ethernet
USB 2.0
Compatibility
BMC Controller
IPMI
Supervision
Interval
Site
Interface
Storage
Real Time Clock
Configuration
Power Requirement
Consumption
Zone 3 (RTM)
Physical Characteristics
Environment
Compliance
RTM
Interface
Dimensions (W x D)
Weight
Temperature
Humidity
Shock
Vibration (5 ~ 500 Hz)
Environment
PICMG
EMC
Dual Intel® Xeon® E5 Series processors*
E5-2648L: 1.8 GHz (TDP 70W, 8 Cores/16 Threads, 20M L3 Cache)
E5-2658: 2.1 GHz (TDP 95W, 8 Cores/16 Threads, 20M L3 Cache)
Intel® Communications Chipset 89xx Series
Redundant 64-Mbit BIOS firmware flashes with AMI UEFI based BIOS
8.0 GT/s
Four channel DDR3 1066/1333/1600MHz SDRAM (72-bit ECC Un-/ Registered), LR DIMM support
Configurable up to 256 GB
8 VLP DIMMs
4/8 x 10GBaseKR with dual star backplane topology supported ( via FMM-5001Q)
2/4 x 40GBaseKR4 with dual / dual-dual start backplane topology supported (via FMM-5004M/5004MM)
i350 quad GbE MAC/PHY supporting two 10/100/1000Base-T ports
2 x 16C550 compatible Serial Ports (1 RJ-45 connector, 1 mini-USB connector)
2 x 10/100/1000BASE-T through PCIe based i350
2 x Type A ports
WindRiver Linux, RedHat Enterprise, CentOS6.1, Windows Server 2008
NXP LPC1768 (Cortex M3)
Compliant with IPMI 2.0using Advantech IPMI code base
1 for x86 BIOS POST, OS Boot, Application
IPMI compliant
1 FMM type II socket, 2 FMM type I sockets
FMM type I: 2 x PCIe x8 from CPU sockets 0 and 1
FMM type II: one PCIex8 from CPU socket 1
2 x MO-297 SSD
Built-in
2x E5-2658 (TDP 95W),8 x DDR3 1600 8GB VLP Memory, FMM-5001Q (Quad i82599 for FI) ,
FMM-5001F (Single i82599, with 2x SFP+ output to Front Panel)
Input Voltage: -48V / 274W (Preliminary)
Input Voltage: -60V / 279W (Preliminary)
Advantech common RTM interface Type 2
2 x PCIex16, 1 x PCIex4, 2 x USB, 1 x UART, , 1 x COM
6HP, 322.25 x 280.00 mm (12.69" x 11.02") (PCB size)
3.275 kg
Operating
Non-operating
0 ~ 55° C (32 ~ 131° F)
-40 ~ 70° C (-40 ~ 158° F)
5 to 93% @ 40° C (non condensing)
95% @ 40° C (non-condensing)
4 G each axis
20 G each axis
0.5 Grms
2.16 Grms, 30 mins each axis
ETSI EN300019-2-1 Class1.2, EN300019-2-2 Class 2.3, ETSI EN300019-2-3 Class 3.1E
Designed to meet GR63-CORE
3.0 R3.0, 3.1 R1.0, HPM.1
FCC47 CFR Part15, Class A, CE Mark (EN55022/EN55024/EN300386)
Designed to meet GR1089-CORE
*Note. MIC-5333 will be compliant to PICMG3.1R2.0 when released.
Ordering Information
Part Number
Description
with dual 8C/16T 70W (E5-2648L) CPUs and FMMMIC-5333N-P01
5001Q for Four 10GBase KR FI interface, no memory,
no MO-297 SSD
with dual 8C/16T 95W (E5-2658) CPUs and FMMMIC-5333N-P02
5001Q for Four 10GBase KR FI interface, no memory,
no MO-297 SSD
with dual 8C/16T 70W (E5-2648L) CPUs and FMMMIC-5333M-P01
5004M for 40GBaseKR4 FI interface, no memory, no
MO-297 SSD
With dual 8C/16T 95W (E5-2658) CPUs and FMMMIC-5333M-P02
5004M for 40GBaseKR4 FI interface, no memory, no
MO-297 SSD
Contact Advantech for information on available and future RTMs and FMMs.
Online Download www.advantech.com/products
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