Using FPGAs to solve challenges in industrial applications
Yvonne Lin, Xilinx
EETimes (11/22/2011 11:32 AM EST)
Abstract
The revolution of automation on factory floors is a key driver for the seemingly insatiable demand for higher productivity, lower total cost of ownership, and high safety. As a result, industrial applications drive an insatiable demand of higher data bandwidth and higher system-level performance.
This article describes the trends and challenges seen by designers of industrial applications and how FPGAs enable solutions to meet their stringent design goals.
To read the full article, click here
Related Semiconductor IP
- Gen#2 of 64-bit RISC-V core with out-of-order pipeline based complex
- LLM AI IP Core
- Post-Quantum Digital Signature IP Core
- Compact Embedded RISC-V Processor
- Power-OK Monitor
Related White Papers
- Increasing bandwidth in industrial applications with FPGA co-processors
- An FPGA design flow for video imaging applications
- How to exploit the uniqueness of FPGA silicon for security applications
- Developing FPGA applications for Edition 2 of the IEC 61508 Safety Standard
Latest White Papers
- SPAD: Specialized Prefill and Decode Hardware for Disaggregated LLM Inference
- DRsam: Detection of Fault-Based Microarchitectural Side-Channel Attacks in RISC-V Using Statistical Preprocessing and Association Rule Mining
- ShuffleV: A Microarchitectural Defense Strategy against Electromagnetic Side-Channel Attacks in Microprocessors
- Practical Considerations of LDPC Decoder Design in Communications Systems
- A Direct Memory Access Controller (DMAC) for Irregular Data Transfers on RISC-V Linux Systems