SPEC SFS®2014_vda Result
Copyright © 2016-2019 Standard Performance Evaluation Corporation
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SPEC SFS®2014_vda ResultCopyright © 2016-2019 Standard Performance Evaluation Corporation |
| Cisco Systems Inc. | SPEC SFS2014_vda = 2070 Streams |
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| Cisco UCS S3260 with MapR-XD | Overall Response Time = 12.94 msec |
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| Cisco UCS S3260 with MapR-XD | |
|---|---|
| Tested by | Cisco Systems Inc. | Hardware Available | November 2016 | Software Available | August 2017 | Date Tested | October 2017 | License Number | 9019 | Licensee Locations | San Jose, CA USA |
Cisco UCS Integrated Infrastructure
Cisco Unified Computing System
(UCS) is the first truly unified data center platform that combines industry-
standard, x86-architecture servers with network and storage access into a
single system. The system is intelligent infrastructure that is automatically
configured through integrated, model-based management to simplify and
accelerate deployment of all kinds of applications. The system's
x86-architecture rack and blade servers are powered exclusively by Intel(R)
Xeon(R) processors and enhanced with Cisco innovations. These innovations
include built-in virtual interface cards (VICs), leading memory capacity, and
the capability to abstract and automatically configure the server state.
Cisco's enterprise-class servers deliver world-record performance to power
mission-critical workloads. Cisco UCS is integrated with a standards-based,
high-bandwidth, low-latency, virtualization-aware unified fabric, with a new
generation of Cisco UCS fabric enabling 40 Gbps.
Cisco UCS S3260
Servers
The Cisco UCS S3260 Storage Server is a high-density modular
storage server designed to deliver efficient, industry-leading storage for
data-intensive workloads. The S3260 is a modular chassis with dual server nodes
(up to two servers per chassis) and up to 60 large-form-factor (LFF) drives in
a 4RU form factor.
MapR-XD is a highly reliable, globally distributed
data store creating a distributed data fabric for managing files, objects and
containers. MapR-XD supports the most stringent speed, scale, and reliability
requirements within and across multiple edge and on-premises environments.
MapR-XD is an entire software defined storage solution which can be run on any
x86 server. In addition, MapR-XD deliver enterprise data services enabling
customers to deploy quickly on production environments.
| Item No | Qty | Type | Vendor | Model/Name | Description |
|---|---|---|---|---|---|
| 1 | 6 | Server Chassis | Cisco | UCS S3260 Chassis | The Cisco UCS S3260 Chassis can support up to two server nodes and Fifty-six drives, or 1 server node and sixty drives, in a compact 4-rack-unit (4RU) form factor, with 4 x Cisco UCS 1050W AC Power Supply |
| 2 | 12 | Storage Server node | Cisco | UCS S3260 M4 Server Node | Cisco UCS S3260 M4 servers, each with: 2 X Intel Xeon processors E5-2680 v4 (28 cores per node), 256 GB of memory (16x16GB 2400MHz DIMMs), Cisco UCS C3000 RAID Controller w 4 GB RAID Cache |
| 3 | 12 | System IO Controller with VIC 1300 | Cisco | S3260 SIOC | Cisco UCS S3260 SIOC with integrated Cisco UCS VIC 1300, one per server node |
| 4 | 192 | Storage HDD, 8TB, 7200 RPM | Cisco | UCS HD8TB | 8TB 7200 RPM drives for storage, Sixteen per server node. Please note, on a fully populated chassis with two server nodes, we can have twenty-eight drives per server node |
| 5 | 1 | Blade Server Chassis | Cisco | UCS 5108 | The Cisco UCS 5108 Blade Server Chassis features flexible bay configurations for blade servers. It can support up to eight half-width blades, up to four full-width blades, or up to two full-width double-height blades in a compact 6-rack-unit (6RU) form factor |
| 6 | 8 | Blade Server, Client nodes | Cisco | UCS B200 M4 | UCS B200 M4 Blade Servers, each with: 2X Intel Xeon processors E5-2660 v3 (20 core per node) 256 GB of memory |
| 7 | 2 | Fabric Extender | Cisco | UCS 2304 | Cisco UCS 2300 Series Fabric Extenders can support up to four 40-Gbps unified fabric uplinks per fabric extender connecting Fabric Interconnect. |
| 8 | 8 | Virtual Interface Card | Cisco | UCS VIC 1340 | The Cisco UCS Virtual Interface Card (VIC) 1340 is a 2-port, 40 Gigabit Ethernet, Fibre Channel over Ethernet (FCoE)-capable modular LAN on motherboard (mLOM) mezzanine adapter. |
| 9 | 2 | Fabric Interconnect | Cisco | UCS 6332 | Cisco UCS 6300 Series Fabric Interconnects support line-rate, lossless 40 Gigabit Ethernet and FCoE connectivity. |
| 10 | 1 | Cisco Nexus 40Gbps Switch | Cisco | Cisco Nexus 9332PQ | The Cisco Nexus 9332PQ Switch has 32 x 40 Gbps Quad Small Form Factor Pluggable Plus (QSFP+) ports. All ports are line rate, delivering 2.56 Tbps of throughput in a 1-rack-unit (1RU) form factor. |
| 11 | 1 | MapR-XD File System | MapR Technologies | MapR-XD | MapR File system, provided by MapR Technologies, is a pioneer in bringing analytics and enterprise applications together. |
| 12 | 8 | FUSE-based posix client | MapR Technologies | FUSE-based posix client premium | MapR FUSE-based POSIX Client allows app servers and client nodes to read and write data directly to a MapR cluster like a Linux filesystem. |
| Item No | Component | Type | Name and Version | Description |
|---|---|---|---|---|
| 1 | Storage Server Nodes | MapR-XD Scalable Converged Data Platform | 5.2 | MapR-XD is a highly reliable, globally distributed data store creating a distributed data fabric for managing files, objects and containers. It runs over the Cisco UCS S3260 servers to form a cluster. The cluster allows for the creation and management of single namespace file systems. |
| 2 | Client nodes | FUSE-based posix client | 5.2 | MapR FUSE-based POSIX Client allows app servers and client nodes to read and write data directly to a MapR cluster like a Linux filesystem |
| 3 | Storage Server and Client nodes | Operating System | Red Hat Enterprise Linux 7.2 for x86_64 | The operating system on the (storage and client) nodes was 64-bit Red Hat Enterprise Linux version 7.2 |
| Storage Nodes | Parameter Name | Value | Description |
|---|---|---|
| scaling_governor | performance | Sets the CPU frequency to performance |
| Intel Turbo Boost | Enabled | Enables the processor to run above its base operating frequency |
| Intel Hyper-Threading | Enabled | Enables multiple threads to run on each core, improving parallelization of computations performed |
| mtu | 9000 | Sets the Maximum Transmission Unit (MTU) to 9000 for improved throughput |
The main part of the hardware configuration was handled by Cisco UCS Mananger (UCSM). It supports creation of "Service Profiles", where in all the tuning parameters are specified with their respective values at the start. These service profiles are then replicated across servers and applied during deployment.
| Storage Nodes | Parameter Name | Value | Description |
|---|---|---|
| Storage Pool Width | 8 | Number of drives per storage pool. To set SP width during setup, use the -disk-opts W:'storage pool width' option when running configure.sh command (The script is located in /opt/mapr/server) |
| Replication factor | 1 | Only keep one replica, to change the factor, go to MCS, select Volume -> replication factor -> 1 |
The nodes used default tuning parameters except where specified in the Hardware and Software tuning sections.
There were no opaque services in use.
| Item No | Description | Data Protection | Stable Storage | Qty |
|---|---|---|---|---|
| 1 | Two 480GB Boot SSDs per server, used to store the operating system for each storage node. | RAID-1 | Yes | 24 |
| 2 | Sixteen 8TB Large Form Factor (LFF) HDD per server node. Per the design, each server node had 2 storage pools with 8 drives each | None | Yes | 192 |
| Number of Filesystems | 1 | Total Capacity | 1300 TiB | Filesystem Type | MapR-XD |
|---|
None
Each UCS S3260 server node in the cluster was populated with 16 8TiB Large Form
Factor (LFF) HDDs. The drives were configured in 2 storage pools per node, each
one having 8 drives. The cluster used a single-tier architecture, with a file
system mount point exposed to the client nodes.
Other Notes (about
BOOT SSDs): Per Server: 2 x 480GiB physical drives, Protection: RAID-1,
UsableGiB: 480GiB
| Item No | Transport Type | Number of Ports Used | Notes |
|---|---|---|---|
| 1 | 40GbE Network | 48 | Each S3260 server node connects to the Fabric Interconnect over a 40Gb Link. Thus there are twelve 40Gb links to each Fabric Interconnect (configured in active-standby mode). The Cisco UCS Blade chassis connects to each Fabric Interconnect with four 40Gb links, with MTU=9000 |
The two Cisco UCS 6332 fabric interconnects function in HA mode
(active-standby) as 40 Gbps Ethernet switches.
Cisco UCS S3260 Server
nodes (Storage Servers): Each Cisco UCS S3260 Chassis has two server nodes.
Each S3260 server node has an S3260 SIOC with an integrated VIC 1300. This
provides 40G connectivity for each server node to each Fabric Interconnect
(configured as active-standby).
Cisco UCS B200 M4 Blade servers
(Clients Nodes): Each of the Cisco UCS B200 M4 blade servers comes with a Cisco
UCS Virtual Interface Card 1340. The two port card supports 40 GbE and FCoE.
Physically the card connects to the UCS 2304 fabric extenders via internal
chassis connections. The eight total ports from the fabric extenders connect to
the UCS 6332 fabric interconnects. The 40G links on the B200 M4 server blades
were bonded in the operating system to provide enhanced throughput for the
clients (the traffic across Fabric Interconnects was through Cisco Nexus 9332PQ
switch).
Detailed Description of the ports used:
2 x {Cisco
UCS 6332} in active/standby config.
total ports for each 6332 = (12 x
S3260) + (4 x Blade chassis) + (4 x Uplinks) = 20 ports per 6332
For
Nexus 9332 (upstream switch), 4 ports connected from each 6332. Thus total used
ports = 8
Overall, total used ports = (20x2) + 8 = 48
| Item No | Switch Name | Switch Type | Total Port Count | Used Port Count | Notes |
|---|---|---|---|---|---|
| 1 | Cisco UCS 6332 #1 | 40 GbE | 32 | 20 | The Cisco UCS 6332 Fabric Interconnect forms the management and communication backbone for the servers. |
| 2 | Cisco UCS 6332 #2 | 40 GbE | 32 | 20 | The Cisco UCS 6332 Fabric Interconnect forms the management and communication backbone for the servers. |
| 3 | Cisco Nexus 9332 | 40 GbE | 32 | 8 | Cisco Nexus 9332PQ used as an upstream Switch |
| Item No | Qty | Type | Location | Description | Processing Function |
|---|---|---|---|---|---|
| 1 | 24 | CPU | File System Storage Nodes | Intel Xeon CPU E5-2680 v4 @ 2.40GHz 14-core | File System Storage Nodes |
| 2 | 16 | CPU | File System Client Nodes | Intel Xeon CPU E5-2660 v3 @ 2.60GHz 10-core | File System Client Nodes, load generator |
Each node in the system (client and server nodes) had two physical processors each. Each processor had multiple cores as mentioned in the table above.
| Description | Size in GiB | Number of Instances | Nonvolatile | Total GiB |
|---|---|---|---|---|
| System memory on storage node | 256 | 12 | V | 3072 |
| System memory on client node | 256 | 8 | V | 2048 | Grand Total Memory Gibibytes | 5120 |
None
The two fabric interconnects are configured in the active-standby mode providing complete High Availability (HA) to the entire cluster, ensuring complete stability/availability of the cluster in case of link failures. The storage is over 8TB Large Form Factor (LFF) HDDs. MapR-XD is used for the file system over the underlying storage, 16 x 8TB Large Form Factor (LFF) HDDs per S3260 server. For stable writes and commit operations, MapR-FS acknowledges a write only after all the replicas have been made and acknowledgement of write receieved by the underlying storage system.
The solution under test was a Cisco UCS S3260 with MapR-XD cluster, a solution well suited for streaming environments. The storage server nodes were S3260 servers. UCS B200 M4 blade servers (fully populated in the blade server chassis) were used as load generators for the benchmark. Each node was connected over a 40Gb link to the two fabric interconnects (configured in HA mode).
None
The 6 Cisco UCS S3260 chassis with two server nodes each were used for the storage (MapR-XD servers). These servers were populated with 16 8TB LFF HDDs each. The 8 Cisco UCS B200 M4 blades were the load generators for the benchmark (client nodes). Each load generator had access to the single namespace MapR-XD file system. The benchmark accessed a single mount point on each load generator. The data requests to and from disk were serviced by the MapR-XD server nodes. All nodes were connected with 40Gb link connectivity across the cluster.
Cisco UCS is a trademark of Cisco Systems Inc. in the USA and/or other
countries.
MapR-XD is a trademark of MapR Data Technologies,
registered in many jurisdictions worldwide.
Intel and Xeon are
trademarks of the Intel Corporation in the U.S. and/or other countries.
None
Generated on Wed Mar 13 16:45:32 2019 by SpecReport
Copyright © 2016-2019 Standard Performance Evaluation Corporation
