9200 NVMe SSDs Features 9200 NVMe SSDs MTFDHAL1T6TCU, MTFDHAL1T9TCT, MTFDHAL3T2TCU, MTFDHAL3T8TCT, MTFDHAL6T4TCU, MTFDHAL7T6TCT, MTFDHAL8TATCW, MTFDHAL11TATCW 6 Zero Return After TRIM (ZRAT) Features 7 Temperature Micron 3D NAND Flash 0C to 85C SMART temperature PCI Express (PCIe ) Gen3 4 0C to 35C ambient NVM Express (NVMe) Specification 1.2 Temperature protection 1 Capacity Mechanical/electrical 9200 ECO: 8.0TB, 11.0TB U.2: 69.85 15.00 100.5mm, 12V (6%/+8%) 9200 PRO: 1.92TB, 3.84TB, 7.68TB Shock: 1500g 0.5ms 9200 MAX: 1.6TB, 3.2TB, 6.4TB Vibration: 3.1 G 5800Hz 30 min/axis RMS 1 Endurance (total bytes written) 1.6TB: Up to 17.5PB Controller Features 1.92TB: Up to 16.8PB NVMe controller 3.2TB: Up to 29.8PB Number of queues: 128 SQ/CQ pairs 3.84TB: Up to 29.4PB Round robin arbitration: not weighted 6.4TB: Up to 59.5PB Interrupt coalescing 7.68TB: Up to 58.8PB NVMe command set attributes 8.0TB: Up to 58.4PB Completion queue entry size: 16 bytes 11.0TB: Up to 80.3PB Submission queue entry size: 64 bytes Industry-standard 512-byte and 4096-byte sector 4KB Atomic operations size support Power: <8W idle, 25W power limited, or unlimited 1. User capacity: 1GB = 1 billion bytes Notes: Surprise insertion/surprise removal (SISR) and 1TB = 1 trillion bytes hot-plug capable 1PB = 1 peta bytes. Power-backed cache 2. Steady state as defined by SNIA Solid State 1, 2 Steady state performance (varies by capacity and Storage Performance Test Specification En- form factor) terprise v1.1. Sequential 128KB read: Up to 3.50 GB/s 3. READ latency varies by capacity. Sequential 128KB write: Up to 3.50 GB/s 4. Based on population statistics that are not Random 4KB read: Up to 840K IOPS relevant to individual units and a T of CASE 60C. Random 4KB write: Up to 285K IOPS 5. 4K sector size support only. Latency to media performance, typical (QD = 1) 3 READ: 92150s 6. 4K aligned data only. WRITE: 21s 7. Operating temperature is the drive case temperature as measured by the SMART Reliability 4 temperature. See air flow recommenda- MTTF: 2 million hours tions. Field-upgradable firmware 17 UBER: <1 sector per 10 bits read SMBus out-of-band management End-to-end data path protection SMART command set support 5 Cryptographic erase FlexPro (flexible over provisioning) CCMTD-731836775-10493 Micron Technology, Inc. reserves the right to change products or specifications without notice. 1 9200 u2 nvme pcie ssd.pdf - Rev. H 7/18 EN 2016 Micron Technology, Inc. All rights reserved. Products and specifications discussed herein are subject to change by Micron without notice.9200 NVMe SSDs Features Native Drivers Custom Drivers Microsoft Windows Server 2016 Microsoft Windows Server 2012 R2, Hyper-V (rec- Red Hat Enterprise Linux (RHEL) 6.5+ ommended) CentOS 6.5+ RHEL 6.1-6.4 SUSE Linux Enterprise Server 11 SP4, 12+ CentOS 6.1-6.4 Ubuntu 12.04.03+, 14.04+ SUSE Linux Enterprise Server 11 SP1-SP3 VMware 5.5, 6.0+ Part Numbering Information The Micron 9200 SSD is available in different configurations and capacities. Visit www.micron.com for a list of val- id part numbers. Figure 1: Part Number Chart FD H AL 1T6 T CU - 1 AR 1 Z AB YY ES MT Micron Technology Production Status Blank = Production Product Family ES = Engineering sample FD = Flash drive MS = Mechanical sample Drive Interface Customer Designator H = PCIe Gen3 YY = Standard Drive Form Factor Additional Features AL = 2.5-inch, 15mm AB = Standard Extended Firmware Features Device Capacity Z = Standard 1T6 = 1.6TB 8 = VPD/SMBUS on by default 1T9 = 1.92TB 3T2 = 3.2TB Sector Size 3T8 = 3.84TB 1 = 512 Bytes 6T4 = 6.4TB 7T6 = 7.68TB NAND Component 8TA = 8.0TB 11TA = 11.0TB AR = 384Gb, TLC, x8, 3.3V (3D) NAND Flash Type BOM Production T = TLC 1 = First generation Flash Drive Product Family CW = 9200 ECO CT = 9200 PRO CU = 9200 MAX Warranty: Contact your Micron sales representative for further information regarding the product, including prod- uct warranties. CCMTD-731836775-10493 Micron Technology, Inc. reserves the right to change products or specifications without notice. 2 9200 u2 nvme pcie ssd.pdf - Rev. H 7/18 EN 2016 Micron Technology, Inc. All rights reserved.