LRNV9349-8I Test Report Product Model: LRNV9349-8I Number: LR19092401 Date: 2019-09-24 PS: The first 6 number of No. Format LR19092401 is the date number, the last 2 one is the sequence number.
Test Sample Sample status or version: (See photo below)
Catalog Aim .................................. 错误!未定义书签。 1 TEST ENVIRONMENT ............................................................................. 2 1.1 Environment&Topology ............................................................ 2 1.2 Software&Introduction .......................................................... 2 1.3 Software&Introduction .......................................................... 3 2 LRNV9349-8I BASIC FEATURES.......................................................... 3 2.
Aim: The test figures out the relevant validations of the Product LRNV9349-8I according to its characteristic and performance and provide the tech foundation for further equipment selection. 1 Test Environment 1.1 Environment&Topology Temperature 10-35℃ Humidity 40%-80%RH Voltage 220V±10% Topology Topology Server 1.2 Software&Introduction No. Name Model Version 1 SANergy sanergyconfig FS_3.2.7.0 2 ATTO ATTO Disk Benchmark V2.47 3 CrystalDiskMark CrystalDiskMark 6.1.
1.3 DUT storage server setting CPU: Intel(R) Core i3-9100 CPU @ 3.60GHz Motherboard: GIGABYTE Z370 HD3 Memory: 8 GB ( DDR4 2133MHz ) Operating System: Windows 8 X64bit System Disk: SANDISK SSD ( 60 GB / Solid disk ) DUT(tested): LRNV9349-8I SSD Disk: Western Digital NVMe SN750 M.2 SSD 250GB*4 SSD Disk: Samsung SSD 970 EVO M.2 500GB*4 Adapter Card: LRNV45N1-V2 Cable: SFF-8643 to SFF-8639 NVMe Cable 2 LRNV9349-8I Basic features 2.1 LRNV9349-8I HBA Feature Functionality Pros: suitable for M.
Reason: Test Item chassis Requirement No gaps and interference-free with components Method 1、 Install DUT onto PCIe slot. 2、 Fix the screws. 3、 DUT should be parallel with motherboard. 4、 The height of Heat sink doesn’t interfere the installment of other cards next to it. High-profile Pass Low-profile Pass Result High-profile☐ Fail Low-profile☐ Fail Reason: 2.3 Dimension Connector X16 ☐ X8 ☐ X4 ☐ X2 ☐ X1 8643 4GB/s Dimension(mm) 170(L)*69(W)*1.2(H) Weight(g) 140g PCIe slot 2.
Windows 10 X86_64 Pass ☐Fail Windows Server 2012 R2 X86_64 Pass ☐Fail Windows Server 2008 R2 X86_64 Pass ☐Fail RHEL/CentOS X86_64 Pass ☐Fail VMware ESXi 6.5 X86_64 Pass ☐Fail Ubuntu 16.04 X86_64 Pass ☐Fail 6.5/7.1 3.3 Drive Windows PCI Express standard Downstream Switch Port Linux PCI bridge:PLX Technology,Inc.Device 8749(rev ca) 3.
Requirement: Connect SSD with card according to Topology1 and test eight M.2 SSD 500GB disks, Read ≥ 3000MB/s under complete load; Write ≥2500MB/s under complete load. Method: Connect SSD with card according to Topology1 and test eight M.2 SSD 500GB disks, Read ≥ 3000MB/s under complete load; Write ≥2500MB/s under complete load. Result Pass ☐Fail Reason: 4.
Connect SSD with card according to Topology1, test eight M.2 SSD 500GB disks, Read ≥ 3100MB/s under complete load; Write ≥2400MB/s under complete load. Method: Connect SSD with card according to Topology1, test eight M.2 SSD 500GB disks, Read ≥ 3100MB/s under complete load; Write ≥2500MB/s under complete load. Result Pass ☐Fail Reason: 5 Aging Test 5.
1、 Connect SSD with card according to Topology1 and test eightM.2 SSD 500GB disks 2、 Test eight SSD disks at the same time with SANergy software 3、 Check if they could be recognized or data exception Method: Connect SSD with card according to Topology1 and test eight M.2 SSD 500GB disks. Test eight SSD disks at the same time with SANergy software for 8 hours. Result Pass ☐Fail Reason: 6 Striped volume performance Test 6.
3、 Write Speed ≥7200MB/s, Read Speed≥9300MB/s Result Pass ☐Fail Reason: 6.2 CrystalDiskMark Test Item: CrystalDiskMark test Requirement&Method: 1、 Connect SSD with card according to Topology1 and create striped volumes in the system.
Result Pass ☐Fail Reason: 7 Test Summary 1. 2. 3. 4. 10 Slot the card LRNV9349-8I into the server according to Topology1, the read/write performance have reached the SSD’s upper limit, HBA functions are normal. Single M.2 SSD’s read speed can reach 3100MB and write speed can reach 2500MB, which has reached to upper limit. Eight M.2 SSD disks created volumes under Windows system with read speed 10994MB and write speed 11487MB.
