Feng Zhen Li from 2709 43Rd Ave, San Francisco, CA 94116, age 55, Phone: (407) 344-9205

Professional Records

Medicine Doctors

Feng Li

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Specialties:

Forensic Pathology

Work:

Forensic Medical Management Services PLC
850 Rs Gass Blvd, Nashville, TN 37216
(615) 743-1800 (phone), (615) 743-1890 (fax)

Education:

Medical School
Zhejiang Med Univ, Hangzhou, Zhejiang, China
Graduated: 1983

Languages:

English

Description:

Dr. Li graduated from the Zhejiang Med Univ, Hangzhou, Zhejiang, China in 1983. He works in Nashville, TN and specializes in Forensic Pathology.

Feng Li

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Specialties:

Gastroenterology

Education:

Medical School
Tufts University School of Medicine
Graduated: 2002

Description:

Dr. Li graduated from the Tufts University School of Medicine in 2002. He works in Tyler, TX and specializes in Gastroenterology. Dr. Li is affiliated with Mother Francis Hospital.

License Records

Feng Jiano Li

License #:

1201113774

Category:

Cosmetologist License

Feng Li

License #:

0225194595 - Expired

Category:

Real Estate Individual

Issued Date:

Nov 19, 2009

Expiration Date:

Nov 30, 2013

Type:

Salesperson License

Feng Li

License #:

014056

Category:

Clinical Laboratory Technologist

Issued Date:

Nov 5, 2008

Type:

CLINICAL LABORATORY TECHNOLOGIST

Resumes

Feng Li Oakland, CA

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Work:

Independent Consultant
Jun 2009 to 2000
North America / Workbridge Associates
Sunnyvale, CA
Jul 2013 to May 2014
Mercedes-Benz Research & Development
Yahoo! / netPolarity Inc
Santa Clara, CA
Dec 2012 to May 2013
iHear Medical Inc
San Leandro, CA
Feb 2012 to Jul 2012
Front End/UI Development
Netpulse
San Francisco, CA
Feb 2011 to Dec 2011
Android Platform

Nov 2010 to Feb 2011
Cisco Networking Academy
Santa Clara, CA
Feb 2010 to Aug 2010
Hobbyfan.com
Emeryville, CA
Jan 2008 to Jun 2009
Server Application Developer
Sony Computer Entertainment
Foster City, CA
Aug 2006 to Dec 2007
First Party Quality Analyst
Leap Frog
Emeryville, CA
Dec 2005 to Apr 2006
Embedded Software Engineer (contractor)
Prediwave
Fremont, CA
Dec 2003 to Apr 2005
Embedded Software Engineer
Argent Software
Houston, TX
Jun 2003 to Aug 2003
Software Developer
Hurricane Electric
Fremont, CA
Feb 2003 to May 2003
Software Developer
Hobbyfan.com
Emeryville, CA
Sep 2002 to Feb 2003
E-Commerce Developer

Education:

UC Berkeley
May 2002
BS in Computer Science

Feng Li New York, NY

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Work:

Cornell University

Jan 2012 to Present
Graduate Student
Cisco System
San Jose, CA
Jul 2012 to Aug 2012
Software Development Intern in Network Operating System Technology Group
Citigroup Inc
New York, NY
May 2012 to Jun 2012
Quantitative Risk Management Intern in Global Consumer Risk Group
California Institute for Telecommunications and Information Technology

Dec 2010 to Jul 2011
Quantitative Researcher
Center for Pervasive Communications and Computing

Jun 2008 to Nov 2010
Quantitative Researcher

Education:

CORNELL UNIVERSITY
Ithaca, NY
2011 to 2012
M.Eng in Financial Engineering
THE UNIVERSITY OF CALIFORNIA IRVINE
Irvine, CA
Oct 2007 to May 2011
Ph.D in Electrical and Computer Engineering
CITY UNIVERSITY OF HONG KONG
Hong Kong, Hong Kong Island
2005 to 2007
M.Phil in Electronic Engineering
HARBIN INSTITUTE OF TECHNOLOGY
Sep 2001 to Jul 2005
B.Eng in Telecommunications

Skills:

CFA II candidate........................ Course work: Fixed Income Securities and Interest Rate Options U.S. Bonds Market Derivatives Securities Stochastic Calculus Monte Carlo Simulation Linear Optimizations Financial Optimization Modeling Statistics and Data analysis for Financial Engineering Time Series Analysis Investment and Portfolio Management Monte Carlo Methods for Financial Engineering Computational Methods in Finance Quantitative Risk Management High-Frequency Trading........ Computer Skills: C, C++, Core Java, J2EE, C#, R, SAS, Matlab, Python, Perl, Linux/Unix, Windows, SQL, TCP/IP, Socket Programming, STL ................................. Math/Stats Skills: Stochastic Calculus, Partial Differential Equation, Statistics, Linear Regression, Time Series, Probability, Linear Algebra

Feng Li

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Business Records

Name / Title

Company / Classification

Phones & Addresses

Feng Li
Chairman

Dream Flash Inc.
Amusement and Recreation Services

2041 E.23Rd St, Oakland, CA 94606

Feng Li
President

Triple Luck, Inc

1 Sunvalley Mall, Concord, CA 94520
412 Sun Vly Mall, Concord, CA 94520

Feng Lin Li
Managing

Senator Enterprise LLC
Import/Export Goods

1182 Silva Ln, Alameda, CA 94502

Feng Zhan Li
Case Manager, Owner

Ageless Home Care Nursing Svcs
Home Health Care Services

10 De Sabla Rd, San Mateo, CA 94402

Feng Zhen Li

Jiro LLC

PO Box 330398, San Francisco, CA 94133

Feng Li

Fz Rainbow Consulting, LLC
Wholesale Nondurable Goods Real Estate A

122 2 Ave, San Mateo, CA 94401
1536 Locust St, San Mateo, CA 94402

Feng Li

ZS INTERNATIONAL BUSINESS CORPORATION

Feng Wu Li

LL YONG JI, INC

Feng Li
Chairman

Dream Flash Inc.
Amusement and Recreation Services

2041 E.23Rd St, Oakland, CA 94606

Publications

Us Patents

Self-Calibrating Optical Imaging System

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US Patent:

6516209, Feb 4, 2003

Filed:

Feb 6, 2001

Appl. No.:

09/778618

Inventors:

Xuefeng Cheng - Milpitas CA
Xiaorong Xu - Menlo Park CA
Shuoming Zhou - Cupertino CA
Lai Wang - Cupertino CA
Ming Wang - San Jose CA
Feng Li - San Jose CA
Guobao Hu - San Jose CA

Assignee:

Photonify Technologies, Inc. - Fremont CA

International Classification:

A61B 500

US Classification:

600323, 600310, 600473, 600476, 2502521

Abstract:

The present invention generally relates to optical imaging systems and methods for providing images of two-dimensional and/or three-dimensional distribution of properties of chromophores in various physiological media. More particularly, the present invention relates to optical imaging systems, optical probes thereof, and methods therefore utilizing self-calibration of their output signals. A typical self-calibrating optical imaging system includes at least one wave source, at least one wave detector, a signal analyzer, a signal processor, and an image processor. The signal analyzer receives, from the wave detector, an output signal representative of the distribution of the chromophores or their properties in target areas of the medium. The signal analyzer analyzes amplitudes of the output signal and selects multiple points of the output signal having substantially similar amplitudes. The signal processor calculates a baseline corresponding to a representative amplitude of the similar amplitudes and provides a self-calibrated output signal.

Self-Calibrating Optical Imaging System

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US Patent:

6735458, May 11, 2004

Filed:

Oct 1, 2002

Appl. No.:

10/262523

Inventors:

Xuefeng Cheng - Milpitas CA
Xiaorong Xu - Menlo Park CA
Shuoming Zhou - Cupertino CA
Lai Wang - Cupertino CA
Ming Wang - San Jose CA
Feng Li - San Jose CA
Guobao Hu - San Jose CA

Assignee:

Photonify Technologies, Inc. - Fremont CA

International Classification:

A61B 500

US Classification:

600323, 600310, 600473, 600476

Abstract:

The present invention generally relates to optical imaging systems and methods for providing images of two-dimensional and/or three-dimensional distribution of properties of chromophores in various physiological media. More particularly, the present invention relates to optical imaging systems, optical probes thereof, and methods therefor utilizing self-calibration of their output signals. A typical self-calibrating optical imaging system includes at least one wave source, at least one wave detector, a signal analyzer, a signal processor, and an image processor. The signal analyzer receives, from the wave detector, an output signal representative of the distribution of the chromophores or their properties in target areas of the medium. The signal analyzer analyzes amplitudes of the output signal and selects multiple points of the output signal having substantially similar amplitudes. The signal processor calculates a baseline corresponding to a representative amplitude of the similar amplitudes and provides a self-calibrated output signal.

Method And Apparatus For Programming A Memory Array

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US Patent:

7212454, May 1, 2007

Filed:

Jun 22, 2005

Appl. No.:

11/158396

Inventors:

Bendik Kleveland - Santa Clara CA, US
Tae Hee Lee - Saratoga CA, US
Seung Geon Yu - San Ramon CA, US
Chia Yang - San Jose CA, US
Feng Li - San Jose CA, US
Xiaoyu Yang - Campbell CA, US

Assignee:

SanDisk 3D LLC - Sunnyvale CA

International Classification:

G11C 29/00

US Classification:

365200, 365175

Abstract:

A method and apparatus for programming a memory array are disclosed. In one embodiment, after each word line is programmed, an attempt is made to detect a defect on that word line. If a defect is detected, the word line is repaired with a redundant word line. The word lines are then reprogrammed and rechecked for defects. In another embodiment, after each word line is programmed, an attempt is made to detect a defect on that word line. If a defect is detected, that word line is repaired along with a previously-programmed adjacent word line. In yet another embodiment, after each word line is programmed, an attempt is made to detect a defect on that word line and a previously-programmed adjacent word line. If a defect is detected on that word line, that word line and the previously-programmed adjacent word line are repaired with redundant word lines.

Speeding Up Timing Analysis By Reusing Delays Computed For Isomorphic Subcircuits

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US Patent:

7451412, Nov 11, 2008

Filed:

Aug 4, 2005

Appl. No.:

11/198451

Inventors:

Larry G. Jones - San Jose CA, US
Feng Li - San Jose CA, US
Mohan Rangan Govindaraj - Menlo Park CA, US
Bradley R. Roetcisoender - Kirkland WA, US
Michael G. Weaver - Menlo Park CA, US

Assignee:

Synopsys, Inc. - Mountain View CA

International Classification:

G06F 17/50

US Classification:

716 4, 716 5, 716 6, 703 14

Abstract:

One embodiment of the present invention provides a system that speeds up timing analysis by reusing delays computed for isomorphic subcircuit. During operation, the system receives a circuit block to be analyzed, wherein the circuit block is in the form of a netlist. The system then subdivides the circuit block into a set of subcircuits. The subcircuits are then partitioned into equivalence classes, which contain subcircuits which are topologically isomorphic to each other. Next, the system performs a timing analysis by tracing paths through a timing graph for the circuit block. During this timing analysis, whenever a delay is required for a subcircuit, the system determines if a corresponding delay has been already computed for the equivalence class associated with the subcircuit. If so, the system reuses the delay. If not, the system computes the delay for the subcircuit, and then associates the computed delay with the equivalence class so that the computed delay can be reused for isomorphic subcircuits.

Memory With High Dielectric Constant Antifuses Adapted For Use At Low Voltage

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US Patent:

7781805, Aug 24, 2010

Filed:

Feb 6, 2009

Appl. No.:

12/367214

Inventors:

Xiaoyu Yang - Campbell CA, US
Feng Li - San Jose CA, US
Albert T. Meeks - Sunnyvale CA, US

Assignee:

SanDisk 3D LLC - Milpitas CA

International Classification:

H01L 29/66

US Classification:

257209, 257530, 257E29081, 257E29085, 257E29091, 257E2933, 438597, 365103

Abstract:

A memory array having memory cells comprising a diode and an antifuse can be made smaller and programmed at lower voltage by using an antifuse material having a higher dielectric constant and a higher acceleration factor than those of silicon dioxide, and by using a diode having a lower band gap than that of silicon. Such memory arrays can be made to have long operating lifetimes by using the high acceleration factor and lower band gap materials. Antifuse materials having dielectric constants between 5 and 27, for example, hafnium silicon oxynitride or hafnium silicon oxide, are particularly effective. Diode materials with band gaps lower than that of silicon, such as germanium or a silicon-germanium alloy, are particularly effective.

Methods Involving Memory With High Dielectric Constant Antifuses Adapted For Use At Low Voltage

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US Patent:

8314023, Nov 20, 2012

Filed:

Feb 6, 2009

Appl. No.:

12/367258

Inventors:

Xiaoyu Yang - Campbell CA, US
Roy E. Scheuerlein - Cupertino CA, US
Feng Li - San Jose CA, US
Albert T. Meeks - Sunnyvale CA, US

Assignee:

SanDisk 3D LLC - Milpitas CA

International Classification:

H01L 21/44

US Classification:

438597, 257530, 257E2933, 257E29081, 257E29085

Abstract:

Methods involve using a memory array having memory cells comprising a diode and an antifuse, in which the antifuse is made smaller and programmed at lower voltage by using an antifuse material having a higher dielectric constant and a higher acceleration factor than those of silicon dioxide, and in which the diode is made of a material having a lower band gap than that of silicon. Such memory arrays can be made to have long operating lifetimes by using the high acceleration factor and lower band gap materials. Antifuse materials having dielectric constants between 5 and 27, for example, hafnium silicon oxynitride or hafnium silicon oxide, are particularly effective. Diode materials with band gaps lower than that of silicon, such as germanium or a silicon-germanium alloy, are particularly effective.

Memory With High Dielectric Constant Antifuses Adapted For Use At Low Voltage

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US Patent:

8350299, Jan 8, 2013

Filed:

Jul 14, 2010

Appl. No.:

12/836320

Inventors:

Xiaoyu Yang - Campbell CA, US
Roy E. Scheuerlein - Cupertino CA, US
Feng Li - San Jose CA, US
Albert T. Meeks - Sunnyvale CA, US

Assignee:

SanDisk 3D LLC - Milpitas CA

International Classification:

H01L 29/66

US Classification:

257209, 257530, 257E27111

Abstract:

A memory cell is provided that includes a diode and a resistance-switching material layer coupled in series with the diode. The resistance-switching material layer: (a) has a dielectric constant in the range of about 5 to about 27, and (b) includes a material from the family consisting of XO, wherein X represents an element from the family consisting of Hf and Zr, and wherein the subscripts v and w have non-zero values that form a stable compound. Other aspects are also provided.

Optical Imaging System With Direct Image Construction

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US Patent:

20020033454, Mar 21, 2002

Filed:

Feb 6, 2001

Appl. No.:

09/778617

Inventors:

Xuefeng Cheng - Milpitas CA, US
Xiaorong Xu - Menlo Park CA, US
Shuoming Zhou - Cupertino CA, US
Lai Wang - Cupertino CA, US
Ming Wang - San Jose CA, US
Feng Li - San Jose CA, US
Guobao Hu - San Jose CA, US

International Classification:

G01J005/02
A61B005/00

US Classification:

250/339120, 600/322000

Abstract:

The invention generally relates to optical imaging systems and methods for providing images of two-dimensional or three-dimensional spatial or temporal distribution of properties of chromophores in a physiological medium. More particularly, the following description provides preferred embodiments of optical imaging systems utilizing efficient, real-time image construction algorithms. A typical optical imaging system includes at least one wave source, at least one wave detector, a movable member, an actuator member, and an imaging member. The wave source emits electromagnetic waves into a target area of the medium, and the wave detector detects electromagnetic waves and generates output signal in response thereto. The movable member includes the wave source and/or detector, and the actuator member moves the movable member along with the wave source and detector over different regions of the target area while the wave detector generates the output signal therefrom. The imaging member generates a set of voxels in the target area and calculates voxel values each of which represents a spatial or temporal average of the property of the chromophore in each voxel. The imaging member generates a set of cross-voxels from the intersecting voxels, and calculates cross-voxel values of the cross-voxels directly from the voxel values of the intersecting voxels. The imaging member then constructs the images of the chromophore properties in the target area. Accordingly, without needing to resort to the time-consuming conventional image reconstruction methods, the optical imaging system of the present invention can construct such images on a substantially real time basis.