Plunify, powered by machine learning and the cloud, delivers cloud-based solutions and optimization software to enable a better quality of results, higher productivity and better efficiency for design. Plunify is a software company in the Electronic Design Market with a focus on FPGA. It was founded in 2009, has its HQ in Singapore… Read More
Neural Network Efficiency with Embedded FPGA’s
The traditional metrics for evaluating IP are performance, power, and area, commonly abbreviated as PPA. Viewed independently, PPA measures can be difficult to assess. As an example, design constraints that are purely based on performance, without concern for the associated power dissipation and circuit area, are increasingly… Read More
An FPGA Industry Veteran’s View of Future
There are tectonic changes happening in the world of FPGAs. A lot has changed since their introduction in the 80’s. Back then they were mostly used to implement state machines or glue logic. Subsequently they grew more complex with the addition of high speed IOs, eRAM, DSPs, other processors and other IP. More recently though FPGAs… Read More
Enhancing Early Static FSM
Finite state machines (FSMs) are widely adopted as part of reactive systems to capture their dynamic behaviors using a limited number of modes or states that usually change according to the applied circumstances. Some terminologies are frequently used to describe the FSM characteristics: state, transition, condition and … Read More
Timing Closure Techniques for SOCs with Embedded FPGA Fabric
Once the benefits of using an embedded FPGA fabric are understood, the next question is about how timing closure is handled between the ASIC and the eFPGA blocks. First let’s look briefly at the advantages. By moving the eFPGA on to the SOC die, tons of I/O logic and the need for any package and board interconnect will vanish. Package… Read More
Machine Learning and Embedded FPGA IP
Machine learning-based applications have become prevalent across consumer, medical, and automotive markets. Still, the underlying architecture(s) and implementations are evolving rapidly, to best fit the throughput, latency, and power efficiency requirements of an ever increasing application space. Although ML is … Read More
Know what 5G is? You’re probably wrong
If you think the transition to 5G will be anything like the transitions before it to 3G or 4G, you are in for a big surprise. Not only will the transition take longer than either of the previous transitions, its ramifications will spread far beyond cell phones and into other areas such as automobiles, AI, healthcare, and commerce. … Read More
When Why and How Should You Use Embedded FPGA Technology
If integrating an embedded FPGA (eFPGA) into your ASIC or SoC design strikes you as odd, it shouldn’t. ICs have been absorbing almost every component on a circuit board for decades, starting with transistors, resistors, and capacitors — then progressing to gates, ALUs, microprocessors, and memories. FPGAs are simply one more… Read More
When FPGA Design Looks More Like ASIC Design
I am sure there are many FPGA designers who are quite content to rely on hardware vendor tools to define, check, implement and burn their FPGAs, and who prefer to test in-system to validate functionality. But that approach is unlikely to work when you’re building on the big SoC platforms – Zynq, Arria and even the big non-SoC devices.… Read More
Block RAM integration for an Embedded FPGA
The upcoming Design Automation Conference in San Francisco includes a very interesting session –“Has the Time for Embedded FPGA Come at Last?” Periodically, I’ve been having coffee with the team at Flex Logix, to get their perspective on this very question – specifically, to learn about the key features that customers are seeking… Read More
Podcast EP267: The Broad Impact Weebit Nano’s ReRAM is having with Coby Hanoch