Zobrazeno 1 - 6
of 6
pro vyhledávání: '"Stephen Heinrich-Barna"'
Autor:
Keith Edmund Kunz, Edgar Sanchez-Sinencio, Kyoohyun Noh, Sanghoon Lee, Stephen Heinrich-Barna
Publikováno v:
IEEE Journal of Solid-State Circuits. 55:2498-2512
This article proposes an ultralow-power accurate current reference that generates 1-nA current. Since an automatic calibration circuit periodically calibrates the generated current of the current reference, the current reference is able to achieve ul
Publikováno v:
ISCAS
The high speed of all-carbon spin logic (ACSL) is an ideal match for the non-volatility of resistive random-access memory (RRAM). Combining these two technologies in a computing system provides exceptionally high efficiency, with the possibility of r
Autor:
Robert A. Glazewski, S. Poli, Bill Kraus, Scott L. Leisen, Stephen Heinrich-Barna, Kurt Stephen Schwartz
Publikováno v:
MWSCAS
Ferroelectric RAM (FRAM) is a non-volatile memory with fast, low power, high endurance, read and write operations. Hence, this technology remains an attractive choice for embedded system solutions. In this paper, we analyze Si data that initiated the
Publikováno v:
ISQED
Write-erase cycling of flash memories has distinct failure signatures that have been thoroughly documented in the literature. A new mechanism has been uncovered when cycling at low temperatures. On the 65nm embedded flash technology, units exhibited
Autor:
Stephen Heinrich-Barna, Robert A. Glazewski, Saim Ahmad Qidwai, Scott L. Leisen, William Francis Kraus
Publikováno v:
2014 IEEE 6th International Memory Workshop (IMW).
Sense Amplifiers have always been an integral part of an embedded memory design and operation. The decreasing process size, appetite for speed, low power, and smaller area all contribute to increased Sense Amplifier (SA) offset. In FRAM technologies,
Autor:
Stephen Heinrich-Barna, Aswin N. Mehta
Publikováno v:
2014 IEEE 6th International Memory Workshop (IMW).
We present a simulation methodology to analyze single bit fails in SRAMs with no visual defect to account for the failure. Our approach generates the MOS IV curves for all six transistors of the failing bit cell and uses this data to simulate read, w