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Vincent B Ashe

from San Jose, CA
Age ~59

Vincent Ashe Phones & Addresses

  • 2410 Beechwood Ave, San Jose, CA 95128
  • Santa Clara, CA
  • Campbell, CA

Work

Company: Peakthrust insurance brokers limited Jan 2006 Position: Chief security officer / dispatch man

Education

School / High School: SKYVIEW COMPUTER INSTITUTE 2000 Specialities: CERTIFICATE OF SECURITY

Resumes

Resumes

Vincent Ashe Photo 1

Vincent Ashe Victoria Island, MI

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Work:
PEAKTHRUST INSURANCE BROKERS LIMITED

Jan 2006 to 2000
Chief Security Officer / Dispatch Man

DIAMOND SECURITY HOLDINGS (NIG) LTD
Lekki Ajah
May 2000 to 2006
Security Operative

Education:
SKYVIEW COMPUTER INSTITUTE
2000 to 2006
CERTIFICATE OF SECURITY

HIGH TOWER EDUCATION CENTER
2006
Certificate of Education in General

Publications

Us Patents

Low-Complexity Soft-Decision Decoding Of Error-Correction Codes

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US Patent:
8407563, Mar 26, 2013
Filed:
Dec 31, 2009
Appl. No.:
12/651399
Inventors:
Razmik Karabed - San Jose CA, US
Hakan C. Ozdemir - Los Gatos CA, US
Vincent Brendan Ashe - Campbell CA, US
Richard Barndt - San Diego CA, US
Assignee:
STMicroelectronics, Inc. - Carrollton TX
International Classification:
G11C 29/00
US Classification:
714769, 714780
Abstract:
A system and method for correcting errors in an ECC block using soft-decision data. In an embodiment, a soft-decision ECC decoding method, uses “soft” data indicative of how reliable bits of data are when read out. Such reliability information may be used to identify particular symbols with a higher likelihood of error such that these symbols may be changed in an attempt to reduce the total number of errors in the data. In an embodiment, a soft-decision ECC decoding path may include a reliability checker operable to receive bits of data read from a data store and operable to associate a reliability factor with each bit of data. Then, an update module may iteratively change bits or groups of bits based upon an ordering of the reliability factors.

Error-Locator-Polynomial Generation With Erasure Support

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US Patent:
8413023, Apr 2, 2013
Filed:
Dec 31, 2009
Appl. No.:
12/651392
Inventors:
Vincent Brendan Ashe - Campbell CA, US
Hakan C. Ozdemir - Los Gatos CA, US
Razmik Karabed - San Jose CA, US
Richard Barndt - San Diego CA, US
Assignee:
STMicroelectronics, Inc. - Carrollton TX
International Classification:
G06F 11/00
US Classification:
714781
Abstract:
A system and method for correcting errors in an ECC block using erasure-identification data when generating an error-locator polynomial. In an embodiment, a ECC decoding method, uses “erasure” data indicative of bits of data that are unable to be deciphered by a decoder. Such a method may use an Berlekamp-Massey algorithm that receives two polynomials as inputs; a first polynomial indicative of erasure location in the stream of bits and a syndrome polynomial indicative of all bits as initially determined. The Berlekamp-Massey algorithm may use the erasure identification information to more easily decipher the overall codeword when faced with a error-filled codeword.

Non-Polynomial Processing Unit For Soft-Decision Error Correction Coding

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US Patent:
20100174954, Jul 8, 2010
Filed:
Dec 31, 2009
Appl. No.:
12/651386
Inventors:
Razmik Karabed - San Jose CA, US
Hakan C. Ozdemir - Los Gatos CA, US
Vincent Brendan Ashe - Campbell CA, US
Richard Barndt - San Diego CA, US
Assignee:
STMicroelectronics, Inc. - Carrollton TX
International Classification:
H03M 13/45
G06F 11/10
G06F 11/00
H03M 13/15
US Classification:
714704, 714780, 714784, 714769, 714E11032, 714E11004, 714781
Abstract:
A system and method for correcting errors in an ECC block using soft-decision data. In an embodiment, a soft-decision ECC decoding method, uses “soft” data indicative of how reliable bits of data are when read out. Such a method may use an update module for receiving and manipulating the soft-decision data and iteratively change bits or groups of bits based upon an ordering of the reliability factors. Then a calculator module may determine the total number of errors still remaining after each iteration. Determining just the total number of errors instead of the actual locations is far less computationally intensive, and therefore, many combination of potential flip-bit combination may be analyzed quickly to determine if any combination might reduce the total number of errors enough to be handled by the conventional hard-decision ECC decoding method.

Approximated Parameter Adaptation

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US Patent:
20180367164, Dec 20, 2018
Filed:
Oct 25, 2017
Appl. No.:
15/793870
Inventors:
- Cupertino CA, US
Jason Bellorado - San Jose CA, US
Vincent Brendan Ashe - San Jose CA, US
Rishi Ahuja - Broomfield CO, US
Assignee:
Seagate Technology LLC - Cupertino CA
International Classification:
H03M 13/41
H03M 1/00
H04B 1/7105
H03M 13/29
Abstract:
An apparatus may include a circuit configured to process an input signal using a set of channel parameters. The circuit may produce, using a first adaptation algorithm, a first set of channel parameters for use by the circuit as the set of channel parameters in processing the input signal. The circuit may further approximate a second set of channel parameters of a second adaptation algorithm for use by the circuit as the set of channel parameters in processing the input signal based on the first set of channel parameters and a relationship between a third set of channel parameters generated using the first adaptation algorithm and a fourth set of channel parameters generated using the second adaptation algorithm. In addition, the circuit may perform the processing of the input signal using the second set of channel parameters as the set of channel parameters.
Vincent B Ashe from San Jose, CA, age ~59 Get Report