As semiconductor manufacturers continue to push the boundaries of fabrication technology, SRAM cell size and density have emerged as critical benchmarks. Tom’s Hardware has got its paws on an ISSCC ...

Chipmakers face a multitude of challenges at the 20nm logic node and beyond, including the task of cramming more functions on the same chip without compromising on power and performance. There is one ...

TSMC's SRAM Scaling has slowed tremendously and while new fabrication nodes are expected to increase performance, cut down power consumption, and increase transistor density prices are likely to rise.

In some projects, such as using a graphical LCD by the StemWin (EmWin) library, the embedded STM32’s SRAM capacity might not be sufficient. For the 100-pin and 144-pin STM32 packages, there is a ...

Embedded memory has become essential for achieving greater bandwidth and faster processing in SoC designs at 0.13 µm and below. By eliminating off-chip delays and reducing system size, embedded memory ...

Renesas Technology Europe has announced the release of a total of eight versions of the SH7266 and SH7267, two new high-performance 32-bit MCU products with an on-chip SRAM size of 1.5 MB, that are ...

In this post, we are going to explain the differences between SRAM and DRAM. These are types of RAM (Random Access Memory) which is an internal memory of a computer. Now, if you are curious about ...

Deep sub-nanometer designs are stressed with large process variability. SRAM-bits have the most aggressive design rules in the SoCs, and the most variability. A dual rail solution offsets some of the ...

The 18 Mb SigmaRAM network SRAM operates at a 350 MHz clock speed over a 72-bit bus width and has a data throughput rate of 25 Gb/s. The device employs an architecture with an open set of standards ...