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Intel SSDPED1K375GA01, 375 GB, Half-Height/Half-Length (HH/HL), 2400 MB/s
Intel Memory Drive Technology transparently integrates Intel Optane SSDs into the memory subsystem.
Intel Memory Drive Technology is a revolutionary software that extends system memory transparently. Combined with an Intel Optane Solid State Drive (SSD), Intel Memory Drive Technology transparently integrates the SSD into the memory subsystem and makes it appear like DRAM to the OS and applications. Intel Memory Drive Technology increases memory capacity beyond DRAM limitations and delivers DRAM-like performance in a completely transparent manner to the operating system and application. In addition, no changes are required to the OS or applications.
There are two key scenarios in which it is beneficial for an IT environment to use
Intel Memory Drive Technology:
- Displace a portion of DRAM to reduce overall memory cost
- Grow the memory pool beyond DRAM capacities when large system memory is required
Displace DRAM for More Affordable Memory
Intel Memory Drive Technology enables data centers to deliver more affordable memory pools by displacing a portion of DRAM. By pairing the DRAM with the high-performing non-volatile memory of the Intel Optane SSD, data centers can more cost-effectively execute workloads that require high-end memory configurations with much lower DRAM capacity installed, saving on both Capex and Opex costs.
Extend Memory for a Bigger Memory Footprint
Intel Memory Drive Technology enables data centers to grow the memory footprint beyond the DRAM capacity. Together, the DRAM and the Intel Optane SSD emulate a single volatile memory pool. Intel Memory Drive Technology intelligently determines where data should be located in the pool to maximize performance, enabling servers to deliver performance across many workloads-even when DRAM is only supplying one-third to one-tenth of the memory pool capacity.
Enable New Possibilities for the Enterprise
The combination of cost-efficiency and increased capacity means enterprises can break through today
Intel Memory Drive Technology is a revolutionary software that extends system memory transparently. Combined with an Intel Optane Solid State Drive (SSD), Intel Memory Drive Technology transparently integrates the SSD into the memory subsystem and makes it appear like DRAM to the OS and applications. Intel Memory Drive Technology increases memory capacity beyond DRAM limitations and delivers DRAM-like performance in a completely transparent manner to the operating system and application. In addition, no changes are required to the OS or applications.
There are two key scenarios in which it is beneficial for an IT environment to use
Intel Memory Drive Technology:
- Displace a portion of DRAM to reduce overall memory cost
- Grow the memory pool beyond DRAM capacities when large system memory is required
Displace DRAM for More Affordable Memory
Intel Memory Drive Technology enables data centers to deliver more affordable memory pools by displacing a portion of DRAM. By pairing the DRAM with the high-performing non-volatile memory of the Intel Optane SSD, data centers can more cost-effectively execute workloads that require high-end memory configurations with much lower DRAM capacity installed, saving on both Capex and Opex costs.
Extend Memory for a Bigger Memory Footprint
Intel Memory Drive Technology enables data centers to grow the memory footprint beyond the DRAM capacity. Together, the DRAM and the Intel Optane SSD emulate a single volatile memory pool. Intel Memory Drive Technology intelligently determines where data should be located in the pool to maximize performance, enabling servers to deliver performance across many workloads-even when DRAM is only supplying one-third to one-tenth of the memory pool capacity.
Enable New Possibilities for the Enterprise
The combination of cost-efficiency and increased capacity means enterprises can break through today
| Features | |
| Security algorithms Security algorithms are used to provide authentication, cipher key generation, integrity and radio link privacy to users on mobile networks. The security algorithms supported are the ones that can be used with this product. | 256-bit AES |
| SSD form factor The size of the solid-state drive, given in inches | Half-Height/Half-Length (HH/HL) |
| SSD capacity The Solid State Drive's data storage capacity. | 375 GB |
| Interface Interface ports to connect pieces of equipment. USB (Universal Serial Bus) has become the most popular wired interface to connect peripherals. USB 2.0 supports speeds up to 480 Mbit/s (USB 1: 12 Mbit/s). The interface FireWire is also known as the IEEE 1394 standard. Enhanced IDE (EIDE)is sometimes referred to as Fast ATA, Fast IDE or ATA-2. | PCI Express 3.0 |
| Memory type Type of memory in the device e.g. DDR3, SRAM (Static RAM). | 3D XPoint |
| NVMe NVM Express (NVMe) or Non-Volatile Memory Host Controller Interface Specification (NVMHCIS) is an open logical device interface specification for accessing non-volatile storage media attached via a PCI Express (PCIe) bus. NVM Express, as a logical device interface, has been designed to capitalize on the low latency and internal parallelism of solid-state storage devices. |
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| Component for What this product is used as a part of (component for). | Server/workstation |
| Hardware encryption |
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| Read speed The speed at which a device can read data. | 2400 MB/s |
| Write speed The speed at which a device can write data. | 2000 MB/s |
| Random read (100% span) | 550000 IOPS |
| Random write (100% span) | 500000 IOPS |
| Sequential read speed (ATTO) | 2400 MB/s |
| Sequential write speed (ATTO) | 2000 MB/s |
| Read latency | 10 µs |
| Write latency | 10 µs |
| Lithography | 20 nm |
| PCI Express CEM revision | 3.0 |
| End-to-End Data Protection |
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| Enhanced Power Loss Data Protection technology |
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| SSD temperature monitoring |
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| Temperature monitoring and logging |
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| Uncorrectable Bit Error Rate (UBER) | < 1 per 10^17 bits read |
| Mean time between failures (MTBF) Statistical model used to indicate product/mechanism reliability; expressed in hours and percentage of duty cycle. This number (in hours) does not indicate the mean time before failure for a single unit/mechanism. | 2000000 h |
| Market segment | Server |
| SSD ARK ID | 97162 |
| Export Control Classification Number (ECCN) | 5A992C |
| Commodity Classification Automated Tracking System (CCATS) | G149950 |
| Power | |
| Power consumption (max) The maximum amount of power used by the device. | 18 W |
| Power consumption (idle) | 5 W |
| Brand-specific features | |
| Intel® Optane™ |
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| Intel High Endurance Technology (HET) |
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| Intel® Rapid Start Technology <b>Get Up and Running in Seconds</b> Stop waiting for your PC to wake up, and get a computing experience that is instantly on and ready to go with Intel® Rapid Start Technology. This technology saves a snapshot of your activity on the SSD, preparing the system with previously saved active memory pages so that you can resume your work, Internet activity, or paused movie right where you left off. |
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| Intel® Remote Secure Erase |
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| Intel® Smart Response Technology <b>Fast Access to Frequently Used Applications</b> Intel® Smart Response Technology enables a high-performance, cost-effective storage solution using either a dual solid-state and hard drive or a solid state hybrid drive (SSHD). By recognizing which data and applications are used most, Intel Smart Response Technology boosts hard drive performance so that you can create, work, and play faster than ever. |
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| Intel Smart Response Technology version | 0.00 |
| Operational conditions | |
| Operating temperature (T-T) The minimum and maximum temperatures at which the product can be safely operated. | 0 - 70 °C |
| Maximum operating temperature | 70 °C |
| Operating vibration Environmental requirements for vibration in operating mode | 2.17 G |
| Non-operating vibration Environmental requirements for vibration in non-operating mode | 3.13 G |
| Operating shock Environmental requirements for optimal protection from impact in operating mode | 50 G |
| Non-operating shock Environmental requirements for optimal protection from impact in non-operating mode | 50 G |
| Operating / non-operating shock | 50 G, 170 in/s, trapezoidal |
| Logistics data | |
| Harmonized System (HS) code | 84717070 |
| Other features | |
| Product colour The colour e.g. red, blue, green, black, white. | Black |
| Target market | Artificial Intelligence, Cloud Computing, High Performance Computing |
| Power consumption (active) | 18 W |
| Drive capacity | 375 GB |
| Launch date | Q1'17 |
| Product brief URL | https://www.intel.com/content/www/us/en/solid-state-drives/optane-ssd-dc-p4800x-brief.html |
| SSD endurance rating | 20.5 PBW |
| SSD hardware encryption | AES 256 bit |
| SSD power consumption (active) | 18 |
| SSD power consumption (idle) | 5 |
| SSD shock | 50 G, 170 in/s, trapezoidal |
| Sequential reading | 2400 MB/s |
| Sequential writing speed | 2000 MB/s |
| Status | Launched |
| Last change | 63903513 |
| Processor family A family of processors is a group of processors produced by one company over a short period of time e.g. Intel Pentium processors. | Intel Optane DC SSD |
| Intel Rapid Start Technology version | 0.00 |
| Remote Secure Erase (RSE) technology version | 0.00 |
| Product family | Data center SSD |
| Product series | Intel® Optane™ SSD DC P4800X Series |
| Product codename | Cold Stream |
| SKU | 750737 |
| MPN | SSDPED1K375GA01 |
| Brand | Intel |
| Product Condition | Brand New/Unused |
| Product Use | General |