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Philip H Benton3420 Nimitz Blvd, San Diego, CA 92106

Related to:
Margaret A Benton 84 Teena M Donewald 64 Daniel Carr Benton 62 Lois Benton Victor A Benton 89 Catherine S Chuter 37 Claire Chuter 31 Timothy A Chuter Timothy A Chuter 65 John H Benton 68 Anne B Chuter 65 Matthew J Benton 28

Philip Benton Phones & Addresses

3420 Nimitz Blvd, San Diego, CA 92106    619-2262727   

5930 Bellevue Ave, La Jolla, CA 92037    858-4595169   

3109 Carnegie Pl, San Diego, CA 92122    858-4577898   

Work

Position: Building and Grounds Cleaning and Maintenance Occupations

Education

Degree: Associate degree or higher
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Mentions for Philip H Benton

Career records & work history

Medicine Doctors

Philip C. Benton

Specialties:
Orthopaedic Surgery, Orthopedic Sports Medicine
Work:
Southern Orthopaedics & Sports Medicine
1717 N E St STE 534, Pensacola, FL 32501
850-4323293 (phone) 850-4347813 (fax)
Site
Education:
Medical School
University of Alabama School of Medicine
Graduated: 1974
Procedures:
Spinal Fusion, Spinal Surgery, Arthrocentesis, Carpal Tunnel Decompression, Hip Replacement, Hip/Femur Fractures and Dislocations, Joint Arthroscopy, Knee Arthroscopy, Knee Replacement, Lower Arm/Elbow/Wrist Fractures and Dislocations, Lower Leg/Ankle Fractures and Dislocations, Shoulder Arthroscopy, Shoulder Surgery, Spinal Cord Surgery
Conditions:
Fractures, Dislocations, Derangement, and Sprains, Internal Derangement of Knee Cartilage, Intervertebral Disc Degeneration, Lateral Epicondylitis, Osteoarthritis, Osteomyelitis, Plantar Fascitis, Rotator Cuff Syndrome and Allied Disorders, Sciatica, Scoliosis or Kyphoscoliosis, Spinal Stenosis
Languages:
English
Description:
Dr. Benton graduated from the University of Alabama School of Medicine in 1974. He works in Pensacola, FL and specializes in Orthopaedic Surgery and Orthopedic Sports Medicine. Dr. Benton is affiliated with Baptist Hospital.

Philip Benton resumes & CV records

Resumes

Philip Benton Photo 36

Senior Director, Critical Support Office

Location:
San Diego, CA
Industry:
Computer Software
Work:
Teradata
Senior Director, Critical Support Office Teradata Feb 2017 - Dec 2018
Lead Product Architect - Teradata Analytic Platform Teradata Oct 2008 - Feb 2017
Database Software Architect Teradata Jan 2007 - Oct 2008
Teradata Performance Analyst Ncr Corporation Feb 2005 - Dec 2006
Lead Teradata Dba Ncr Corporation Feb 2003 - Feb 2005
Database Software Analyst
Education:
University of Oregon 1998 - 2002
Bachelors, Bachelor of Science, Mathematics, Computer Science, Business
Skills:
Databases, Teradata, Data Warehousing, Performance Tuning, Data Warehouse Architecture, Business Intelligence, Sql Tuning, Database Design, Data Modeling, Etl, Sql, Data Integration, Architectures, Solution Architecture, Informatica, Teradata Data Warehouse, Data Governance
Philip Benton Photo 37

Philip Benton

Location:
San Diego, CA
Industry:
Computer Software
Skills:
Data Warehousing, Data Warehouse Architecture, Teradata, Databases, Performance Tuning, Data Integration, Etl, Data Modeling, Data Governance, Teradata Data Warehouse, Database Design, Business Intelligence, Solution Architecture, Architectures, Sql Tuning, Informatica, Sql

Publications & IP owners

Us Patents

Timing Of Reassignment Of Data To Different Configurations Of Processing Units In Database Sytems

US Patent:
2018006, Mar 8, 2018
Filed:
Nov 10, 2017
Appl. No.:
15/808977
Inventors:
- Dayton OH, US
Philip Jason Benton - San Diego CA, US
Frederick S. Kaufmann - Irvine CA, US
Paul Laurence Sinclair - Manhattan Beach CA, US
Louis Martin Burger - Escondido CA, US
Assignee:
Teradata US, Inc. - Dayton OH
International Classification:
G06F 17/30
Abstract:
Data portions of a database can be grouped and ranked in order of priory for reassignment from one or more maps to another one or more maps. It should be noted that a first map can assign the data portions to a first configuration of processors for processing the data portions, and a second map assigns the data portions to a second configuration of processors, different than the first configuration, for processing the data portions in a database system and/or environment. The data portions are reassigned in groups during an available time (window) for reassignment by taking the first one of the groups can be reassigned (“moved”) in the available, then the second one in the available reaming time, and so on, until no group of data portions can be moved in the remaining time or all of them have been moved.

Reassignment Of Data To Different Configurations Of Processing Units In Database Systems

US Patent:
2018005, Feb 22, 2018
Filed:
Oct 30, 2017
Appl. No.:
15/797188
Inventors:
- Dayton OH, US
Rajendran Kolandasamy - San Diego CA, US
Philip Jason Benton - San Diego CA, US
Paul Laurence Sinclair - Manhattan Beach CA, US
Donald Raymond Pederson - San Diego CA, US
Louis Martin Burger - Escondido CA, US
Assignee:
Teradata US, Inc. - Dayton OH
International Classification:
G06F 17/30
Abstract:
An order (or priority) for reassigning data portions of a database from a first map to a second map can be determined. It should be noted that the first map assigns the data portions to a first configuration of processors for processing the data portions, and the second map assigns the data portions to a second configuration of processors, different than the first configuration, for processing the data portions in a database system and/or environment. The order can be determined by grouping the data in multiple groups and ordering the groups in accordance with a determined priority for reassignment In doing so, one or more relationships between the data portions and/or cost of use for each one the groups can be considered.

Management Of Data In Multi-Storage Systems That Can Include Non-Volatile And Volatile Storages

US Patent:
2015018, Jul 2, 2015
Filed:
Dec 17, 2014
Appl. No.:
14/573781
Inventors:
- Dayton OH, US
Philip J. Benton - San Diego CA, US
Donald Pederson - San Diego CA, US
Assignee:
Teradata Corporation - Dayton OH
International Classification:
G06F 3/06
Abstract:
Techniques for management of data in multi-storage systems allow managing storage of data in a first storage of multiple storages in a multi-storage system based on the temperature of the data (or data temperature) obtained for a second storage of the multiple storages in a multi-storage system. For example, in a multi-storage system that includes at least one non-volatile storage (e.g., one or more HDDs) and at least one volatile storage (e.g., a cache memory device), the storage of a particular data portion (e.g., a storage unit of data) for the at least one volatile storage can be managed based on a temperature of the data determined for the non-volatile storage. By way of example, persistent temperatures used for management of data in a non-volatile storage system (e.g., a multi-tier storage of a database system) can be used to effectively manage the storage of the data in a cache memory that is typically provided for improving performance by keeping data that is likely to be used in the cache memory. As a result, overall performance of a system can be further enhanced by allowing persistent temperature measurements to be used in managing cache memory, instead of solely relying on conventional techniques for caching data which typically do not take into account persistent temperatures associated with a non-volatile storage environment.

Management Of Data In Multi-Storage Systems That Can Include Non-Volatile And Volatile Storages

US Patent:
2015018, Jul 2, 2015
Filed:
Dec 17, 2014
Appl. No.:
14/573864
Inventors:
- Dayton OH, US
Steven B. Cohen - Redondo Beach CA, US
Donald Pederson - San Diego CA, US
Philip J. Benton - San Diego CA, US
Gary Lee Boggs - San Diego CA, US
Albert O. Lam - San Diego CA, US
Wayne R. Boyle - San Diego CA, US
Assignee:
Teradata Corporation - Dayton OH
International Classification:
G06F 3/06
G06F 12/12
Abstract:
A combination of non-persistent-based and persistent-based schemes are used to effectively manage volatile storages which are conventionally managed solely by using non-persistent schemes (e.g., LRU schemes in cache memory). Generally, the persistent-based schemes can be based on persistent information associated with a non-volatile storage environment (e.g., persistent data temperatures associated with data stored in non-volatile storages). In this context, a persistent-based scheme can, for example, be effectively used in addition or combination with a conventional scheme provided for volatile memory. By way of example, a LRU scheme can be combined with a scheme based on persistent data temperatures in order to more effectively manage cache memory provided to enhance the performance of a system. As another example, a LRU, a LFU aging schemes can be combined with a scheme based on persistent data temperatures.

Possible Relatives

Cynthia R Benton  David M Benton  Dawn E Benton  Dean A Benton  Dallas Benton  Dan Benton  Dana R Benton  Philip E Johnson  Philip M Standifer  Philip E Johnston 

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