Gartner Recommends Network-on-Chip (NoC) Technology For SoC Design


In their latest Hype Cycle for Semiconductors and Electronics Technologies report, Gartner Research has taken the bold step of recommending that all enterprises involved in advanced SoC design should seriously evaluate network-on-chip (NoC) technology based interconnect fabric IP: “The technology has continued to receive a good amount of publicity along with continued adoption by leading S... » read more

HDMI 2.0 Design And Verification Challenges


HDMI designs face challenges with respect to run time and memory consumption due to the huge size of HDMI frames. Scrambling adds more complexity and designs face synchronization and timing challenges. Similar challenges are faced during the functional verification of systems-on- chip (SoCs) including HDMI interfaces. These challenges can be addressed using HDMI verification IP (VIP). To dow... » read more

Rethinking Old Sayings


One of my favorite quotes from Gary Smith is a few years old: “It’s the software, stupid!” That statement was made way back in 2006. While it was, and in some ways still is, very illustrative, I believe it also points to one extreme in the back and forth between focusing on hardware then software to differentiate our electronic systems. At the point in time Gary made the statement that... » read more

Experts At The Table: What’s Next?


Semiconductor Engineering sat down with Jim Hogan, long-time industry venture capitalist; Simon Bloch, senior director at Samsung Electronics; Sumit DasGupta, formerly Si2 senior vice president of engineering; and Mike Gianfagna, vice president of marketing at eSilicon (VP of corporate marketing at Atrenta when this roundtable was held). What follows are excerpts of that discussion. SE: What... » read more

The Race For Better Verification


SoC verification is gearing up for renewed competition among the big vendors and verification-only companies like Real Intent. They are delivering their next-generation SoC verification suites with a focus on specific areas of concern. Clock-domain crossing, X-verification and reset optimization, SDC correctness and consistency, are some of the areas that are receiving dedicated RTL analysis us... » read more

Where Dragons Roam


For more than half a year now, I am living with two dragons at home. Luckily from the outside they look just like regular children, so we didn’t have to upgrade our house. But we have to remind our little dragons to switch to human languages when they talk to us. It is interesting, and also a bit sad, to realize that as we “grow up,” we lose the ability to let our imagination go wild a... » read more

Cracking The Tough Nut Using Formal Methods


Pranav Ashar, CTO of Real Intent, assured a packed room of researchers and practitioners of formal methods at the recent FMCAD conference: “Static verification is being used in the verification of designs. Every major chip out there is using static methods for sign-off today.” He used an analogy of cracking a nut. “There’s a right way and a wrong way and if you don’t pick the right me... » read more

Stacked Die Moves From Drawing Board To Reality


After decades of moving in a straight line from one process geometry shrink to the next, much of the semiconductor industry has taken a step back to figure out what comes next. While companies such as Intel, IBM and Samsung continue to look as far ahead as the 3nm process node, along with new materials to improve electron mobility and new transistor designs based on electron tunneling and carbo... » read more

Counting Pennies


Even Intel may not have enough cash on hand to pay for a new state-of-the-art fab at 7nm. With fully equipped fabs expected to rise into the plus-$10 billion range over the next few process nodes, and each new process shrink jam-packed with a multitude of new problems, the momentum for continuing to shrink features appears to be slowing down. Technically, it’s possible to shrink transistor... » read more

Verifying Cache Coherency Protocols With Verification IP


The use of on-chip cache memory helps design teams optimize multicore designs for both power and performance. While the use of hardware to implement cache coherency enables design teams to improve SoC performance, it adds significantly to verification complexity. The use of verification IP (VIP) enables engineers to validate such designs, although the VIP's effectiveness depends on its advanced... » read more

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