2014 IEEE Computer Society Annual Symposium on VLSI awards Crocus’ PhD best PhD Forum Award
This Symposium explores emerging trends and novel ideas and concepts in the area of VLSI. Research areas covered are system architecture, analog and digitals circuits, computer-aided design and verification, testing, reliability, fault-tolerance and post-CMOS technologies. For the past two decades, the conference has been a unique forum for promoting visionary approaches to VLSI design process and has been an esteemed venue for presenting multidisciplinary research. The Symposium brings together leading scientists and researchers from academia and industry.
This year, ISVLSI hosted a Ph.D. Forum , providing opportunity for Ph.D. students to present their thesis work to a broad audience in the VLSI community from both industry and academia.
Paper : Exploration of Magnetic RAM based Memory Hierarchy for Multicore Architecture
The goal of this article is to highlight the interest to use MRAM for cache memory in order to keep overall application performance saving static power. In this paper, we explore integration of MRAM into the memory hierarchy of multiprocessor architecture. Both performance and energy are evaluated using a processor architecture simulator and a circuit-level model simulator for non-volatile memories. We demonstrate that use of MRAM is an attractive alternative to optimize overall system power consumption without lost in performance.
This work was done as part of a thesis managed by Crocus Technology in collaboration with the LIRMM laboratory.
Authors of this paper, Sophiane Senni, received the best Ph.D. Forum paper award of the IEEE ISVLSI 2014, given by :
General Chairs :
Prof. Saraju P. Mohanty, University of North Texas
Prof. Nagarajan Ranganathan, University of South Florida
Dr. Sanjukta Bhanja, University of South Florida
Program Chairs :
Prof. Sandip Kundu, University of Massachussetts, Amherst
CNRS Research Director Patrick Girard, LIRMM/CNRS, France
About Crocus Technology
Crocus Technology is a leading developer of magnetically enhanced semiconductor technologies for mobile security, embedded microcontrollers, harsh environment electronics and magnetic sensors.
Crocus has pioneered Magnetic Logic Unit™ (MLU), a disruptive CMOS-based rugged magnetic technology. MLU offers important advantages in high speed, security and robust performance at lower cost for its broadening portfolio of embedded products and non-volatile memory blocks. It licenses its MLU architecture to TowerJazz and other foundries for integration in production processes. Crocus is gearing up to market standalone, tamper-resistant MLU-based microcontrollers it is developing with IBM. These fast read and write small footprint MLU products enhance the performance and security of chips for smart cards, mobile phones and data servers. Crocus also sells magnetic sensors that bring high sensitivity, low-noise, low-cost and high temperature performance (250 degrees Celsius) for a wide range of consumer and industrial applications.
Founded in 2004, Crocus is led by a senior management team with high-level industry experience forged in Motorola, AMD, Intel, Texas Instruments and Gemalto. It has US operations in Santa Clara, California, and offices in Grenoble and Rousset, France. It jointly owns Crocus Nano Electronics, a Russian-based advanced magnetic semiconductor manufacturing facility, with investment firm Rusnano. For more information: http://www.crocus-technology.com