Tag Archives: non-volatile

Intel Optane, Intel’s Next-Generation SSD Technology

In July 2015, Intel and Micron Technology announced a new technology for memory and storage solutions called “3D XPoint™ technology“. It is a new category of nonvolatile memory that addresses the need for high-performance, high-endurance, and high-capacity memory and storage.

Now Intel had produced its Optane™ technology that provides an unparalleled combination of high throughput, low latency, high quality of service, and high endurance. The new technology is a special combination of 3D XPoint™ memory media, Intel Memory and Storage Controllers, Intel Interconnect IP and Intel® software.

From system acceleration and fast caching to storage and memory expansion, Intel Optane delivers a revolutionary leap forward in decreasing latency and accelerating systems for workloads demanding large capacity and fast storage.

3D-Xpoint memory structure, Source: Intel Corp

The first product with this technology is the Intel Optane SSD DC P4800X. It is a 375GB add-in card that communicates via NVMe over a four-lane PCIe 3.0 link, and it is available for $1,520 or $4.05 per GB.

Optane™ storage could be used in many sectors and domains. It will help healthcare researchers to work with larger data sets in real-time, financial institutions to speed trading, and retailers to identify fraud detection patterns more quickly. Optane™ technology can also be used at home to optimize personal computer for immersive gaming experience.

The 3D XPoint innovative, transistor-less cross point architecture creates a three-dimensional checkerboard where memory cells sit at the intersection of words lines and bit lines, allowing the cells to be addressed individually. As a result, data can be written and read in small sizes, leading to fast and efficient read/write processes.

Memory cells are written or read by varying the amount of voltage sent to each selector. This eliminates the need for transistors, increasing capacity and reducing cost. The initial technology stores 128Gb per die across two stacked memory layers. Future generations of this technology can increase the number of memory layers and/or use traditional lithographic pitch scaling to increase die capacity.

3D XPoint Technology Wafer

You can get more detailed information about 3D Xpoint and Intel Optane technologies through their official websites. You can also take a look at these two Intel P4800X reviews; Billy Tallis fromAnandTech and Paul Alcorn from Tom’s Hardware.

The New Fujitsu ReRam

Resistive random-access memory (RRAM or ReRAM) is a type of non-volatile (NV) random-access (RAM) computer memory that works by changing the resistance across a dielectric solid-state material often referred to as a memristor.

Fujitsu Semiconductor has just launched world’s largest density 4 Mbit ReRAM product for mass production: MB85AS4MT. Partnering with Panasonic Semiconductor Solutions, this chip came to life.

The MB85AS4MT is an SPI-interface ReRAM product that operates with a wide range of power supply voltage, from 1.65V to 3.6V. It features an extremely small average current in read operations of 0.2mA at a maximum operating frequency of 5MHz.

It is optimal for battery operated wearable devices and medical devices such as hearing aids, which require high density, low power consumption electronic components.

20161029154434_mb85as4mt

Main Specifications
  • Memory Density (configuration): 4 Mbit (512K words x 8 bits)
  • Interface: Serial peripheral interface (SPI)
  • Operating power supply voltage: 1.65V – 3.6V
  • Low power consumption:
    • Read operating current: 0.2mA (at 5MHz)
    • Write operating current: 1.3mA (during write cycle time)
    • Standby current: 10µA
    • Sleep current: 2µA
  • Guaranteed write cycles: 1.2 million cycles
  • Guaranteed read cycles: Unlimited
  • Write cycle time (256 byte page): 16ms (with 100% data inversion)
  • Data retention: 10 years (up to 85°C)
  • Package: 209 mil 8-pin SOP

This figure shows the block diagram of the chip:

reram

MB85AS4MT is suitable for lots of applications like medical devices, and IoT devices such as meters and sensors. In addition, the chip has the industry’s lowest power consumption for read operations in non-volatile memory.

For more information about MB85AS4MT, you can check the datasheet and the official website.