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Documents for EMD4E001G16G2-150CAS2
Datasheets
Product Change Notices (PCNs)
PCN03043_CMOS_Fab_Supplier_Trace Code.pdf
Everspin is adding a character to the trace code on all Everspin products to identify CMOS wafer Fab supplier.
application notes
Enabling Xilinx FPGA Controllers for ST-DDR4 Persistent Memory
Spin-Transfer Torque Magnetoresistive Random Access Memory (STT-MRAM) is a persistent memory technology that delivers performance, persistence, and durability utilizing variants of industry standard interfaces. Everspin has introduced STT-MRAM products that utilize a variant of the JEDEC standard DDR4 interface, called ST-DDR4, that encompasses the unique functionality required for full system support. This document will help engineers understand how to enable a Xilinx FPGA memory controller to communicate with persistent ST-DDR4 memory.
ST-DDR4 Change Table V1 0.pdf
This app note shows the names of the fifteen modules that require changes from the standard Xilinx MIG controller for a XCKU060-2FFVA1156E device. When run properly, the example script will automate these changes for the user.
Application Note Utilizing Everspin STT-MRAM in Enterprise SSDs
As Enterprise Solid State Drives (SSDs) continue to push the envelope in terms of system performance and smaller form factors, SSD solutions providers are facing greater challenges to increase performance and density while continuing to protect data-in-flight from power failures. NAND flash has not significantly increased in performance and the improvement in SSD performance is typically made by adding more parallel channels of flash. This increases the need for energy storage for power fail protection which in turn reduces space available for the storage array for a fixed form factor.
This application note explores the SSD architecture benefits of employing Everspin ST-MRAM on the DDR bus of the SSD controller to provide a high speed, non-volatile write buffer in order to reduce power fail energy storage while increasing performance and storage density.
Approximating the Magnetic Field When Using Everspin MRAM
How to create an approximation of the magnetic field strength surrounding an MRAM
technical articles & white papers
Toggle and Spin-Torque MRAM: Status and Outlook
Article by J.M. Slaughter, et.al., of Everspin Technologies
RoHS / REACH
RMI_EMRT_1.3_Everspin Technologies_07-29-2024_ Company level.xlsx
RMI_EMRT_1.3_Everspin Technologies_07-29-2024_ Product Level.xlsx
RMI_CMRT_6.4__Everspin Technologies_06.21.2024_ Product level.xlsx
RMI_EMRT_1.3_Everspin Technologies_5-13-2024_ Product level.xlsx
RMI_CMRT_6.4__Everspin Technologies_05.03.2024_ Company level.xlsx
RMI_CMRT_6.31_Everspin Technologies_10-24-2023_ Product level.xlsx
Everspin_RoHS_Red_Phosphorus_Compliance.pdf
RoHS Red Phosphorous statement
Everspin Conflict Minerals Report Fiscal 2019.pdf
Everspin Conflict Minerals Report Fiscal 2019