Non-Volatile RAM For the Internet of Things (IOT)
The Internet of Things (IOT) is the vast network of computerized things (other than computers & servers). Some these things include contract-less identification devices, smart cards, thermostats, smoke detectors, smart locks, video monitors, etc. These IOT devices are typically low-power, low-cost single chip systems. Today’s commodity memory technologies (DRAM, NAND Flash, NOR Flash) do not provide the optimum solution for these complex single chip systems. New non-volatile memory technologies have emerged over the last 30-years to meet the needs of IOT. This presentation covers the history and current status of ferroelectric RAM (FRAM) and magnetoresistive RAM (RAM) technologies and products.
Date and Time
Location
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- Date: 02 Sep 2022
- Time: 11:00 AM to 12:15 PM
- All times are (UTC-06:00) Mountain Time (US & Canada)
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- 1420 Austin Bluffs Pkwy
- Colorado Springs, Colorado
- United States 80918
- Building: Osborne Center for Science and Engineering
- Room Number: A204
- Contact Event Host
- Co-sponsored by UCCS
Speakers
David Bondurant of Vertical Memory
Non-Volatile RAM For the Internet of Things (IOT)
The Internet of Things (IOT) is the vast network of computerized things (other than computers & servers). Some these things include contract-less identification devices, smart cards, thermostats, smoke detectors, smart locks, video monitors, etc. These IOT devices are typically low-power, low-cost single chip systems. Today’s commodity memory technologies (DRAM, NAND Flash, NOR Flash) do not provide the optimum solution for these complex single chip systems. New non-volatile memory technologies have emerged over the last 30-years to meet the needs of IOT. This presentation covers the history and current status of ferroelectric RAM (FRAM) and magnetoresistive RAM (RAM) technologies and products.
Biography:
David Bondurant has been involved with the computer and semiconductor industry for 49-years. He was a computer architect at Control Data, Sperry-Univac, and Honeywell. He was involved with the government-sponsored advanced semiconductor program called VHSIC (Very High Speed Integrated Circuits) at Univac & Honeywell where he developed microprocessor and ASIC semiconductor products in bipolar CML, CMOS, and radiation hard CMOS. He was involved with emerging non-volatile RAM marketing at industry leading companies, Ramtron (FRAM), Simtek (non-volatile SRAM), and Freescale Semiconductor/Everspin Technologies (MRAM) as they became viable over the last 30-years.
Email:
Address:Colorado Springs, Colorado, United States