New Embedded DRAM Solutions for High-Performance SoCs
New leading-edge applications ranging from games to networking infrastructure equipment are driving the need to include large-capacity and high-speed memory on-chip rather than separately as a discrete device. On-chip memory devices enable throughput capabilities into the gigabit-per-second range, as well as compact designs with modest power dissipation and smaller footprints in office, industrial equipment and lightweight electronic devices.
The semiconductor industry is meeting the demands presented by these market trends with system-on-a-chip (SoC) designs. SoCs contain the processor, logic, analog macros and memory needed to perform all of the critical functions; they also represent a major departure from previous system-on-a-board development. In this new, highly integrated chip landscape, innovative solutions for embedded memory are being addressed.
Related Semiconductor IP
- SLVS Transceiver in TSMC 28nm
- 0.9V/2.5V I/O Library in TSMC 55nm
- 1.8V/3.3V Multi-Voltage GPIO in TSMC 28nm
- 1.8V/3.3V I/O Library with 5V ODIO & Analog in TSMC 16nm
- ESD Solutions for Multi-Gigabit SerDes in TSMC 28nm
Related White Papers
- Enabling High Performance SoCs Through Multi-Die Re-use
- Building high performance interrupt responses into an embedded SoC design
- Software Infrastructure of an embedded Video Processor Core for Multimedia Solutions
- A new era for embedded memory
Latest White Papers
- What tamper detection IP brings to SoC designs
- Analyzing Modern NVIDIA GPU cores
- RISC-V in 2025: Progress, Challenges,and What’s Next for Automotive & OpenHardware
- Leveraging RISC-V as a Unified, Heterogeneous Platform for Next-Gen AI Chips
- Design and implementation of a hardened cryptographic coprocessor for a RISC-V 128-bit core