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Jagdeep J Singh, 48Sunnyvale, CA

Known as:
Jagdeep Dingh
Related to:
Balwinder Singh 53

Jagdeep Singh Phones & Addresses

Sunnyvale, CA   

824 Clearwater Creek Blvd, Manteca, CA 95336   

482 Victory Ave, Manteca, CA 95336    209-8256531    209-8256534   

Pueblo, CO   

Las Vegas, NV   

Lodi, CA   

Omaha, NE   

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Mentions for Jagdeep J Singh

Career records & work history

Medicine Doctors

Jagdeep Singh

Specialties:
Cardiovascular Disease
Work:
New York Heart & Vascular Specialists
1471 Dekalb Ave FL 4, Brooklyn, NY 11237
347-3509344 (phone) 347-2404434 (fax)
Education:
Medical School
Mysore Med Coll, Rajiv Gandhi Univ Hlth Sci, Mysore, Karnataka, India
Graduated: 2001
Languages:
English, Spanish
Description:
Dr. Singh graduated from the Mysore Med Coll, Rajiv Gandhi Univ Hlth Sci, Mysore, Karnataka, India in 2001. He works in Brooklyn, NY and specializes in Cardiovascular Disease. Dr. Singh is affiliated with Wyckoff Heights Medical Center.

Jagdeep Singh

Specialties:
Nephrology
Work:
Davita Dialysis
325 West Ave, Cedartown, GA 30125
770-7481398 (phone) 770-7490755 (fax)
Education:
Medical School
Grant Med Coll, Univ of Mumbai, Mumbai, Maharashtra, India
Graduated: 1996
Languages:
English
Description:
Dr. Singh graduated from the Grant Med Coll, Univ of Mumbai, Mumbai, Maharashtra, India in 1996. He works in Cedartown, GA and specializes in Nephrology.
Jagdeep Singh Photo 1

Jagdeep Singh

Specialties:
Internal Medicine
Education:
Royal College Of Surgeons In Ireland (2005)
Jagdeep Singh Photo 2

Jagdeep U Singh

Specialties:
Internal Medicine
Nephrology
Education:
Grant Medical College (1996)

Resumes & CV records

Resumes

Jagdeep Singh Photo 50

Jagdeep Singh - San Lorenzo, CA

Work:
Olympic Gas Station May 2012 to 2000
Gas Station Clerk Bonfare Market - Foster City, CA Mar 2006 to Oct 2006
Administrative Assistant
Education:
California State University East Bay - Hayward, CA Dec 2013
B.S. in Business Administration
Skills:
SKILLS Demonstrated skill in Microsoft Office Applications and Salesforce Bilingual English and Punjabi HONORS AND AWARDS
Jagdeep Singh Photo 51

Jagdeep Singh

Education:
Tyee High School 2013
Information Technology Puget Sound Skills Center 2012

Publications & IP owners

Wikipedia

Jagdeep Singh Photo 55

Jag Singh

Jagdeep Singh (born January 10, 1993 in India) is an Indian professional basketball player. He plays for the Young Cagers who compete at the FIBA Asia ...

Us Patents

Digital Optical Network Architecture

US Patent:
7295783, Nov 13, 2007
Filed:
Oct 8, 2002
Appl. No.:
10/267212
Inventors:
Jagdeep Singh - Los Gatos CA, US
Drew D. Perkins - Saratoga CA, US
David F. Welch - Menlo Park CA, US
Mark Yin - Cupertino CA, US
Stephen G. Grubb - Ellicott City MD, US
Robert R. Taylor - Windsor Mill MD, US
Vincent G. Dominic - Fremont CA, US
Matthew L. Mitchell - Sunnyvale CA, US
Assignee:
Infinera Corporation - Sunnyvale CA
International Classification:
H04J 14/02
H04B 10/00
H04B 10/02
US Classification:
398175, 398 87, 398 97, 398164
Abstract:
A digital optical network (DON) is a new approach to low-cost, more compact optical transmitter modules and optical receiver modules for deployment in optical transport networks (OTNs). One important aspect of a digital optical network is the incorporation in these modules of transmitter photonic integrated circuit (TxPIC) chips and receiver photonic integrated circuit (RxPIC) chips in lieu of discrete modulated sources and detector sources with discrete multiplexers or demultiplexers.

Digital Optical Network Architecture

US Patent:
7634195, Dec 15, 2009
Filed:
Nov 12, 2007
Appl. No.:
11/938761
Inventors:
Jagdeep Singh - Los Gatos CA, US
Drew Perkins - Saratoga CA, US
David F. Welch - Atherton CA, US
Mark Yin - Cupertino CA, US
Stephen G. Grubb - Reisterstown MD, US
Robert R. Taylor - Charleston SC, US
Vincent G. Dominic - Dayton OH, US
Matthew L. Mitchell - Monte Sereno CA, US
Assignee:
Infinera Corporation - Sunnyvale CA
International Classification:
H04J 14/02
US Classification:
398 79, 398 82, 398 43
Abstract:
A digital optical network (DON) is a new approach to low-cost, more compact optical transmitter modules and optical receiver modules for deployment in optical transport networks (OTNs). One important aspect of a digital optical network is the incorporation in these modules of transmitter photonic integrated circuit (TxPIC) chips and receiver photonic integrated circuit (TxPIC) chips in lieu of discrete modulated sources and detector sources with discrete multiplexers or demultiplexers.

Installable Performance Accelerator For Maintaining A Local Cache Storing Data Residing On A Server Computer

US Patent:
5805809, Sep 8, 1998
Filed:
Apr 26, 1995
Appl. No.:
8/427966
Inventors:
Jagdeep Singh - Cupertino CA
Boen T. Thio - Escondido CA
Chandrashekhar W. Bhide - Sunnyvale CA
Wayne R. Gray - Sunnyvale CA
Assignee:
Shiva Corporation - Bedford MA
International Classification:
G06F 1300
G06F 1516
US Classification:
39520033
Abstract:
An installable performance accelerator for computer network distributed file systems is provided. A cache subsystem is added onto, or plugged into, an existing distributed file system with no source code modifications to the operating system. The cache subsystem manages a cache on the client computer side which traps file system calls to cached files in order to obtain an immediate and substantial performance increase in distributed file system performance.

Method And Product For Enchancing Performance Of Computer Networks Including Shared Storage Objects

US Patent:
5881229, Mar 9, 1999
Filed:
Apr 26, 1996
Appl. No.:
8/639367
Inventors:
Jagdeep Singh - Cupertino CA
Chandrashekhar W. Bhide - Sunnyvale CA
Assignee:
Shiva Corporation - Bedford MA
International Classification:
G06F 1700
US Classification:
39520033
Abstract:
An installable performance accelerator for computer network distributed file systems is provided. A cache subsystem is added onto, or plugged into, an existing distributed file system with no source code modifications to the operating system. The cache subsystem manages a cache on the client computer side which traps or intercepts file system calls to cached files in order to obtain an immediate and substantial performance increase in distributed file system performance. Additionally, a refresh agent may be installed on the server side to further speed up cache accesses.

Performance Optimizations For Computer Networks Utilizing Http

US Patent:
5852717, Dec 22, 1998
Filed:
Nov 20, 1996
Appl. No.:
8/752500
Inventors:
Chandrashekhar W. Bhide - Sunnyvale CA
Jagdeep Singh - Cupertino CA
Don Oestreicher - Cupertino CA
Assignee:
Shiva Corporation - Bedford MA
International Classification:
G06F 1700
US Classification:
39520033
Abstract:
Systems and methods of increasing the performance of computer networks, especially networks connecting users to the Web, are provided. Performance is increased by reducing the latency the client experiences between sending a request to the server and receiving a response. A connection cache may be maintained by an agent on the network access equipment to more quickly respond to request for network connections to the server. Additionally, the agent may maintain a cache of information to more quickly respond to requests to get an object if it has been modified. These enhancements and other described herein may be implemented singly or in conjunction to reduce the latency involved in sending the requests to the server by saving round-trip times between computer network components.

Sintering Large Area Ceramic Films

US Patent:
2021034, Nov 4, 2021
Filed:
Oct 16, 2019
Appl. No.:
17/283014
Inventors:
- San Jose CA, US
Sriam IYER - Cupertino CA, US
Jagdeep SINGH - Los Gatos CA, US
Gengfu XU - Santa Clara CA, US
Jordan FRIEDLAND - San Jose CA, US
Hutha SARMA - San Jose CA, US
Nima SHAH - San Jose CA, US
Dong Hee Anna CHOI - San Jose CA, US
International Classification:
H01M 10/0562
C04B 35/48
C04B 35/622
C04B 35/634
C04B 35/64
C04B 35/638
H01M 10/0525
Abstract:
Set forth herein are processes and materials for sintering dense thin green films comprising lithium-stuffed garnet powder and a binder to obtain sintered lithium-stuffed garnet thin films. Some of the processes, herein, include providing a first setter and a second setter, wherein the first setter and second setter each include at least 5 atomic % lithium (Li) per setter; placing the green film on the first setter; placing the second setter within 2 cm of the green film but not in contact with the green film; and heating the green film to at least 900 C.

Translucent And Transparent Separators

US Patent:
2019026, Aug 22, 2019
Filed:
Aug 4, 2017
Appl. No.:
16/320072
Inventors:
- San Jose CA, US
Zhebo CHEN - San Jose CA, US
Lei CHENG - San Jose CA, US
Niall DONNELLY - Malvern PA, US
Tim HOLME - Mountain View CA, US
Tommy HUANG - San Jose CA, US
Sriram IYER - Cupertino CA, US
Kian KERMAN - San Jose CA, US
Harsh MAHESHWARI - San Jose CA, US
Jagdeep SINGH - Los Gatos CA, US
Gengfu XU - Santa Clara CA, US
International Classification:
H01M 10/0562
H01M 10/0525
Abstract:
Provided herein are defect-free solid-state separators which are useful as Liion-conducting electrolytes in electrochemical cells and devices, such as, but not limited to, rechargeable batteries. In some examples, the separators have a Liion-conductivity greater than 1*10S/cm at room temperature.

Solid State Energy Storage Devices

US Patent:
2014036, Dec 11, 2014
Filed:
Jul 10, 2012
Appl. No.:
14/238472
Inventors:
Timothy P. Holme - Mountain View CA, US
Rainer Fasching - Mill Valley CA, US
Joseph Han - Redwood City CA, US
Weston Arthur Hermann - Palo Alto CA, US
Friedrich B. Prinz - Woodside CA, US
Phil Reilly - Portola Valley CA, US
Jagdeep Singh - Los Gatos CA, US
Assignee:
QUANTUMSCAPE CORPORATION - San Jose CA
International Classification:
H01M 4/48
H01M 4/583
US Classification:
4292315, 429209, 42923195, 4292316, 4292318, 4292181
Abstract:
Solid state energy storage systems and devices are provided. A solid state energy storage devices can include an active layer disposed between conductive electrodes, the active layer having one or more quantum confinement species (QCS), such as quantum dots, quantum particles, quantum wells, nanoparticles, nanostructures, nanowires and nanofibers. The solid state energy storage device can have a charge rate of at least about 500 V/s and an energy storage density of at least about 150 Whr/kg.

Possible Relatives

David J Singh  Davinder Singh  Davinderpal Singh  Dawinder Singh  Dale D Singh  Daler Singh  Dalip D Singh  Jagdeep S Sandhu  Jagdeep K Virk  Jagdeep Dhaliwal 

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