Low-Power Design Is A Corporate Mindset At ARM


The use of the PowerPro platform in the methodology outlined in this paper provides ARM with an RTL design flow which is power-centric. The ability to perform daily RTL power analysis at the block/unit level provides rapid turnaround on the power trend, while weekly analysis provides more complete benchmark reference metrics. To read more, click here. » read more

How High-Level Synthesis Was Used to Develop An Image-Processing IP Design From C++ Source Code


Imagine working long and hard on a design, only to learn that you need to add new (and more complex) functionality a few months before your targeted tapeout. How can you deliver the performance and capabilities expected in the same timeframe? For Bosch, high-level synthesis (HLS) provided the solution. In this paper, we will discuss how HLS technology enabled the team to meet an aggressive sche... » read more

Assessing ESD Sensitivity Of Interface IP Using Charged Device Model


An electronic device is susceptible to Electrostatic Discharge (ESD) damage during its entire life cycle, especially from the completion of the silicon wafer processing to when the device is assembled in the system. The most commonly used ESD test models are the Human Body Model (HBM) and the Charged Device Model (CDM). Both models assess the ESD sensitivity of a device, however due to the rapi... » read more

System Performance Analysis At ARM


Performance analysis is a vital task in modern SoC design. An under-designed SoC may run too slowly to keep up with the demands of the system. An over-designed SoC will consume too much power and require more expensive IP blocks. At ARM we want to help our partners build SoCs that deliver the best performance within their power and area budgets. The simple truth is that this is more difficul... » read more

An Open Solution For Systems And Embedded Software Simulation


This paper describes a complete Systems and Embedded Software Validation & Verification workflow that uses SCADE for modeling and simulating the controller software and a combination of other modeling tools for plant simulation. It introduces the Scade language and the SCADE Suite toolset that includes a (certified) code generator for producing the controller software. It then describes how ... » read more

Power/Performance Bits: Dec. 6


Perovskites for data storage Scientists at EPFL developed a new perovskite material whose magnetic order can be rapidly changed without disrupting it due to heating that could potentially be used to build next-generation hard drives. "We have essentially discovered the first magnetic photoconductor," said Bálint Náfrádi, a postdoc at EPFL. This new crystal structure combines the advant... » read more

Power/Performance Bits: Nov. 29


PV technology comparison Joshua J. Romero at the IEEE Spectrum put together an overview of photovoltaic technologies, including the world records for each type of cell, grouped into five broad categories. There is a brief overview of each cell type and some of its trade-offs. He also looks at how fast each technology has made efficiency gains. The most rapid progress is being seen in high... » read more

7nm Design Success Starts With Multi-Domain Multi-Physics Analysis


Companies can benefit from advancements in the latest semiconductor process technology by delivering smaller, faster and lower power products, especially for those servicing mobile, high performance computing and automotive ADAS applications. By using 7nm processes, design teams are able to add a lot more functionality onto a single chip and lower the power consumption by scaling operating volt... » read more

Power/Performance Bits: Nov. 23


Increasing lithium battery density Researchers at Columbia University developed a new method to increase the energy density of lithium batteries using a trilayer structure that is stable in ambient air. "When lithium batteries are charged the first time, they lose anywhere from 5-20% energy in that first cycle," said Yuan Yang, assistant professor of materials science and engineering at C... » read more

7nm Power Issues And Solutions


Being able to achieve 35% speed improvement, 65% power reduction and 3.3X higher density makes adopting a 7nm process for your next system-on-chip (SoC) design seem like an easy decision. However, with $271 million in estimated total design cost and 500 man-years it would take to bring a mid-range 7nm SoC to production, companies need to carefully weigh the benefits against the cost of designin... » read more

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