Hybrid Method For More Reliable Virtual Sensors Within Vehicle Dynamics Control Systems


New technical paper titled "Ensuring the Reliability of Virtual Sensors Based on Artificial Intelligence within Vehicle Dynamics Control Systems" from University of Duisburg-Essen. Abstract "The use of virtual sensors in vehicles represents a cost-effective alternative to the installation of physical hardware. In addition to physical models resulting from theoretical modeling, artificial in... » read more

Neuromorphic HW Fabric That Supports A Recently Proposed Class of Stochastic Neural Network


New research paper titled "Neural sampling machine with stochastic synapse allows brain-like learning and inference" from University of Notre Dame and Department of Cognitive Sciences, University of California Irvine. Abstract "Many real-world mission-critical applications require continual online learning from noisy data and real-time decision making with a defined confidence level. Brain-... » read more

Zone-ECU Virtualization Solution Platform


The high complexity of future vehicle systems will need to move away from today’s distributed automotive E/E architecture towards a more centralized E/E structure based on less but much more powerful ECUs, instead of many individual control entities. A Zone-oriented architecture moves the integration of numerous functions and services into one ECU. The resulting network concept must deal w... » read more

Designing Application-Specific Processors for Wireless 5G SoCs


Traditional architectures for wireless baseband applications are no longer adequate for recent and next-generation modem standards. Supporting complex and still evolving standards like 5G in a single modem is only possible by using SDR techniques, which place increasing demands on performance and power consumption on the SoC. ASIP architectures enable full customization of a processor, which... » read more

Evolving Your ADAS And AV Tests With Emulation Capability


Creating safe and robust autonomous driving (AD) systems is a complex task. Autonomous vehicles (AVs) have hundreds of sensors, all of which need to work with one another inside the car and with other smart vehicles. The software algorithms enabling autonomous driving features will ultimately need to synthesize all the information collected from these sensors to ensure that the vehicle responds... » read more

Blog Review: May 25


Coventor's Michael Hargrove points to the need for a new generation of deep-submicron CMOS circuits that can operate at deep-cryogenic temperatures to achieve a quantum integrated circuit where the array of qubits is integrated on the same chip as the CMOS electronics required to read the state of the qubits. Ansys' Marc Swinnen warns about dynamic voltage drop as ultra-low supply voltages, ... » read more

EDA Software Design Flow Considerations For The RF/Microwave Module Designer


Miniaturization of consumer products, aerospace and defense systems, medical devices, and LED arrays has spawned the development of a technology known as the multi-chip module (MCM), which combines multiple integrated circuits (ICs), semiconductor die, and other discrete components within a unifying substrate for use as a single component. This white paper outlines the steps for implementing an... » read more

Embedded Software: Sometimes Easier, Often More Complex


Embedded software, once a challenge to write, update, and optimize, is following the route of other types of software. It is abstracted, simpler to use, and much faster to write. But in some cases, it's also much harder to get right. From a conceptual level, the general definition of embedded software has not changed much. It's still low-level drivers and RTOSes that run close to the hardwar... » read more

Using Dynamic Route Map Technique for Insight Into Memristors


New technical paper titled "Empirical Characterization of ReRAM Devices Using Memory Maps and a Dynamic Route Map," from Balearic Islands University, UC Berkeley, Health Institute of the Balearic Islands, International Hellenic University, Technische Universität Dresden, Universidad de Valladolid, and Aristotle University of Thessaloniki. Abstract: "Memristors were proposed in the early 1... » read more

Argonne & Univ. of Chicago: Using Quantum Computers to Simulate Quantum Materials


Research study titled "Simulating the electronic structure of spin defects on quantum computers," by Argonne National Laboratory and the University of Chicago. Abstract: "We present calculations of the ground and excited state energies of spin defects in solids carried out on a quantum computer, using a hybrid classical/quantum protocol. We focus on the negatively charged nitrogen vacancy c... » read more

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