Role Of IoT Software Expanding


IoT software is becoming much more sophisticated and complex as vendors seek to optimize it for specific applications, and far more essential for vendors looking to deliver devices on-time and on-budget across multiple market segments. That complexity varies widely across the IoT. For example, the sensor monitoring for a simple sprinkler system is far different than the preventive maintenanc... » read more

AI Adoption Slow For Design Tools


A lot of excitement, and a fair amount of hype, surrounds what artificial intelligence (AI) can do for the EDA industry. But many challenges must be overcome before AI can start designing, verifying, and implementing chips for us. Should AI replace the algorithms in use today, or does it have a different role to play? At the end of the day, AI is a technique that has strengths and weaknesses... » read more

Week In Review: Design, Low Power


The National Institute of Standards and Technology (NIST) outlined its plan for a National Semiconductor Technology Center (NSTC) to be created using a share of the $11 billion in funds from the CHIPS Act marked for research and development. While a large portion of the CHIPS Act investment is set to boost U.S. fabs and manufacturing capabilities, the NSTC aims to also support the design side, ... » read more

Week In Review: Auto, Security, Pervasive Computing


Pervasive computing Renesas introduced a narrowband Internet of Things (NB-IoT) chipset and dev kit for the Indian market. The LTE NB-IoT modem chipset, the RH1NS200, was designed for Indian telecommunications carriers by targeting bands 1,3, 5 and 8 and by following India’s carrier-approved LTE protocol stack and software suite. Low power usage is built in — it has a low Power Saving Mode... » read more

Week In Review: Design, Low Power


Arm and Intel Foundry Services inked a multi-generation agreement to enable chip designers to build Arm-based SoCs on the Intel 18A process. The initial focus is mobile SoC designs, but the deal allows for potential expansion into automotive, IoT, data center, aerospace, and government applications. IFS and Arm will undertake design technology co-optimization (DTCO) to optimize chip design and ... » read more

Chiplet Security Risks Underestimated


The semiconductor ecosystem is abuzz with the promise of chiplets, but there is far less attention being paid to security in those chiplets or the heterogeneous systems into which they will be integrated. Disaggregating SoCs into chiplets significantly alters the cybersecurity threat landscape. Unlike a monolithic multi-function chip, which usually is manufactured using the same process tech... » read more

Growing Challenges For Increasingly Connected Vehicles


Automobiles will become increasingly connected over the next decade, but that connectivity will come at a price in terms of dollars, security, and constantly changing technology. Connectivity involves all parts of a vehicle. It includes everything from autonomous driving to in-cabin monitoring and connected infotainment. And it encompasses external sensors, IoT, V2X, over-the-air communicati... » read more

The Architect’s Dilemma And Closing The Loop With Implementation


Gordon Moore has left a mark on our industry. Moore's Law has shaped decades of development. The EDA industry has been moving up the layers of abstraction to increase the productivity and predictability of design flows in our efforts to address the ever-increasing complexity of semiconductors and electronics developments. I had written about it in "Chasing The Next Level Of Productivity" not lo... » read more

Physically Aware NoCs


More functions, greater security risks, and increasingly complicated integration of IP and various components below 7nm is increasing the time and effort it takes to get a functioning chip out the door. In many of these devices, the network on chip is the glue between various components, but it can take up to 10% to 12% of the total area of the SoC. Andy Nightingale, vice president of product m... » read more

Week In Review: Design, Low Power


Apple plans to spend an additional €1 billion (~$1.1B) over the next six years to expand its Munich, Germany-based Silicon Design Centre, including the construction of a new research facility. "The expansion of our European Silicon Design Centre will enable an even closer collaboration between our more than 2,000 engineers in Bavaria working on breakthrough innovations, including custom sil... » read more

← Older posts Newer posts →