Websites : Intel-FPGA (formerly Altera)

Published on Tuesday 6 September 2016

⇒ https://www.altera.com/

FPGA, SoC and CPLD solutions that shorten time to market, improve performance and productivity, and reduce system costs compared to traditional DSP, ASSP, and ASIC products.

Syndicated articles taken from this site

Why Isn’t 56 Gbps Impossible?
August 2018, by Ron Wilson
Why Isn’t 56 Gbps Impossible? How fast can you force data through a pair of wires? It is a trick question, of course. The answer depends on the wires, the material and geometry around them, the distance, and your choice of transceiver technology. Worst-case, your answer may be tens of megabits (...)
Embedded Computing Needs Hardware-Based Security
July 2018, by Ron Wilson
Embedded Computing Needs Hardware-Based Security Embedded systems are in a profound transition: from physically isolated, autonomous devices to Internet-connected, accessible devices. Designers are learning—often to their dismay—that the mutation requires far more than just gluing a network (...)
Embedded Computing Needs Hardware-Based Security
July 2018, by Ron Wilson
Embedded Computing Needs Hardware-Based Security Embedded systems are in a profound transition: from physically isolated, autonomous devices to Internet-connected, accessible devices. Designers are learning—often to their dismay—that the mutation requires far more than just gluing a network (...)
Embedded Computing on the Edge
June 2018, by Ron Wilson
Embedded Computing on the Edge Embedded computing has passed—more or less unscathed—through many technology shifts and marketing fashions. But the most recent—the rise of edge computing—could mean important new possibilities and challenges. So what is edge computing (Figure 1)? The cynic might say (...)
Embedded Computing on the Edge
June 2018, by Ron Wilson
Embedded Computing on the Edge Embedded computing has passed—more or less unscathed—through many technology shifts and marketing fashions. But the most recent—the rise of edge computing—could mean important new possibilities and challenges. So what is edge computing (Figure 1)? The cynic might say (...)
Understanding Neuromorphic Computing
April 2018, by Ron Wilson
Understanding Neuromorphic Computing The phrase neuromorphic computing has a long history, dating back at least to the 1980s, when legendary Caltech researcher Carver Mead proposed designing ICs to mimic the organization of living neuron cells. But recently the term has taken on a much more (...)
Understanding Neuromorphic Computing
April 2018, by Ron Wilson
Understanding Neuromorphic Computing The phrase neuromorphic computing has a long history, dating back at least to the 1980s, when legendary Caltech researcher Carver Mead proposed designing ICs to mimic the organization of living neuron cells. But recently the term has taken on a much more (...)
Opening Windows into SoC Hardware
March 2018, by Ron Wilson
Opening Windows into SoC Hardware There is a long tradition in system design for embedding special hardware to observe and manipulate the state of the system. From the beginning of digital computing, central processors have had hardware to support single-step, loading and examination of (...)
Opening Windows into SoC Hardware
March 2018, by Ron Wilson
Opening Windows into SoC Hardware There is a long tradition in system design for embedding special hardware to observe and manipulate the state of the system. From the beginning of digital computing, central processors have had hardware to support single-step, loading and examination of (...)
Test-Driven Hardware Development: True or False?
February 2018, by Ron Wilson
Test-Driven Hardware Development: True or False? Few generalizations about hardware design are more widely accepted than this: it is better to find errors early. And yet the traditional design-then-verify flow gives errors ample time to embed themselves in the design before even starting to (...)

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