DRAM Stress to Fail Test for Maximum Reliability
DRAM Stress to Fail Test for Maximum Reliability

In this video, Jerry Wang, DRAM business unit head, explains why even a 0.01% error should be eliminated to avoid catastrophic effects, especially in large-scale implementations where hundreds or thousands of modules are in use.

ATP e.MMC Production Process
ATP e.MMC Production Process

The ATP industrial e.MMC solution is designed to meet the high-performance data transfer and storage requirements of industrial and embedded applications in space-constrained systems requiring rugged reliability and very high endurance.

Image of ATP Industrial-Grade M.2 2280 NVMe 1.3 SSDs M.2 2280-NVMe-1.3-SSD in Industriequalität Datum der Veröffentlichung: 2021-08-09

Die M.2-2280-NVMe-1.3-SSD von ATP in Industriequalität mit Mikrocontroller-basiertem PLP-Array unterstützen datenintensive Anwendungen.

Image of ATP Industrial Temperature M.2/2.5" SATA SSDs M.2/2,5-Zoll-SATA-SSDs mit industriellem Temperaturbereich Datum der Veröffentlichung: 2021-07-28

Die Halbleiterfestplatten von ATP können einen weiten Betriebstemperaturbereich aufweisen, sodass sie auch starken Temperaturschwankungen standhalten.

Image of ATP Industrial/Extended Temp. e.MMC BGA storage e.MMC BGA-Speicher für industrielle Zwecke/mit erweitertem Temperaturbereich Datum der Veröffentlichung: 2021-07-28

Die e.MMC BGA-Speicherlösungen von ATP verfügen über einen weiten Temperaturbereich, der sicherstellt, dass schwierige Szenarien keine negativen Auswirkungen auf das Gerät oder die darin enthaltenen Daten haben.

Memory & Storage Solutions

ATP's memory & storage solutions.

DDR3 DRAM Solutions

ATP DDR3 modules are supported by the Intel® Core™ i7 Series, the AMD AM3 Phenom™ processor, and the latest AMD Embedded Enterprise Chipsets.

DDR1 DRAM Solutions

Double Data Rate (DDR), also known as DDR1, is the second generation of Synchronous DRAM (SDRAM).

Complete DRAM Portfolio

ATP's complete DRAM portfolio.

ATP Customizes PowerProtector Firmware to Better Address Sudden Power-Off Scenarios

To protect data during a power loss event, ATP SSDs include PowerProtector, which integrates hardware design and firmware algorithms.

DDR4 DRAM Solutions

ATP's fourth-generation industrial DDR memory combines up to 3200 MT/s data transfer rate and a mere 1.2V power consumption to deliver faster performance at higher power savings over earlier DRAM technologies.

DDR2 DRAM Solutions

DDR2 supersedes the original DDR specifications with data transfer speeds up to 800 MT/s.

M.2 NVMe Embedded SSD

M.2 solid state modules based on the NVMe™protocol leverage the blazing-fast PCI Express® (PCIe®) interface to deliver dramatic improvements in speed and performance.

M.2 SATA Embedded SSD

ATP's M.2 Serial ATA (SATA) solid state modules are available in types 2242 and 2280.

ATP’s Fast, Low-Power “Industrial Only” DDR4-3200 DRAM Solutions Deliver Memory Boost to AMD EPYC™ and 2nd Gen Intel® Xeon® Scalable Processors

ATP’s DDR4-3200 modules ensure a big boost in performance, compute density and productivity with their fast 3200 MT/s data rate to optimize the power of AMD’s eight-memory channel and Intel’s six-memory channel architectures.

I-Temp NVMe SSDs Combine High Performance 8-Channel PCIe Gen 3 x4, End-to-End Data Protection, MCU-Based Power Management

ATP combines the speed and performance of PCIe NVMe with the reliability and endurance features of 3D NAND flash.

NAND Flash 101

NAND flash memory is a type of non-volatile solid-state storage that persistently stores and retrieves data. It is non-volatile memory since it retains data when power is not applied.

Complete Flash Portfolio

ATPs complete flash portfolio.

ATP Next-Gen A600Si/A600Sc SATA SSDs Feature Breakthrough MCU Design for Enhanced Power Management and PLP Capabilities

ATP unveils its next-generation A600Si and A600Sc Serial ATA solid state drives featuring a completely new design of the power loss protection array, which utilizes a new power management IC and new firmware-programmable MCU.

e.MMC 3D MLC and SLC Mode Reliability Report Summary

This report aims to show that the Industrial and Automotive Grade 3 ATP e.MMC based on 3D NAND MLC and SLC mode flash are suitable for write-intensive and read-intensive applications.