Medical School University of Massachusetts Medical School Graduated: 1996
Procedures:
Destruction of Benign/Premalignant Skin Lesions Hearing Evaluation Psychological and Neuropsychological Tests Vaccine Administration
Conditions:
Acute Conjunctivitis Acute Pharyngitis Atopic Dermatitis Croup Otitis Media
Languages:
English Italian
Description:
Dr. O'Connor graduated from the University of Massachusetts Medical School in 1996. He works in Cheshire, CT and specializes in Pediatrics. Dr. O'Connor is affiliated with Yale New Haven Hospital and Yale-New Haven Hospital Saint Raphael Campus.
Dr. O'Connor graduated from the Thomas Jefferson University, Jefferson Medical College in 1988. He works in Somers Point, NJ and specializes in Pulmonary Critical Care Medicine and Sleep Medicine. Dr. O'Connor is affiliated with Atlanticare Regional Medical Center and Shore Medical Center.
Dr. O'Connor graduated from the SUNY Downstate Medical Center College of Medicine in 1979. He works in Breezy Point, NY and specializes in Internal Medicine and Internal Medicine - Geriatrics.
Dr. O'connor graduated from the University of Massachusetts Medical School in 1981. He works in North Falmouth, MA and specializes in Internal Medicine and Internal Medicine - Geriatrics.
Dr. O'connor graduated from the A.T. Still University of Health Sciences/ Kirksville College of Osteopathic Medicine in 1967. He works in Jackson, MI and specializes in Family Medicine. Dr. O'connor is affiliated with Allegiance Health.
Queens Hospital Center Surgery 8268 164 St STE A363, Jamaica, NY 11432 718 883-4640 (phone), 718 883-6149 (fax)
Education:
Medical School SUNY Upstate Medical University Graduated: 1993
Languages:
English
Description:
Dr. O'Connor graduated from the SUNY Upstate Medical University in 1993. He works in Jamaica, NY and specializes in General Surgery and Colon & Rectal Surgery. Dr. O'Connor is affiliated with Elmhurst Hospital Center and Queens Hospital Center.
Feb 2014 to 2000 Process and Performance EngineerContinental Building Products Buchanan, NY Aug 2013 to Feb 2014 Manufacturing Engineering Professional (MEP)Lafarge North America Gypsum Division Buchanan, NY Sep 2012 to Aug 2013 Manufacturing Eng Professional (MEP)
Education:
Binghamton University, State University of New York May 2012 Bachelor of Science in Industrial and Systems Engineering
Us Patents
Minimizing Use Of Parts That Will Reach Their End Of Life Prior To The Products For Which Those Parts Are Usable
Sudhir M. Desai - Wappingers Falls NY, US James A. O'Connor - Ulster Park NY, US Dean A. St. Pier - Wappingers Falls NY, US Anne-Marie L. Sweetland - Wappingers Falls NY, US
Assignee:
International Business Machines Corporation - Armonk NY
International Classification:
G06F 15/00 G06F 17/50
US Classification:
702183, 705 29
Abstract:
Use of parts in products is managed to minimize the use of parts that will reach their end of life prior to the products for which those parts are usable. To manage use of a part, end of life data for the part is estimated and compared to the actual or projected end of life data of a product for which the part is to be used or is used. If the comparison indicates that the part will reach its end of life prior to the product, then various factors are considered to determine whether the part is to be used in the product. The factors include cost, scheduling, alternate part availability, redesign options and/or other factors.
Providing Enhanced Tolerance Of Data Loss In A Disk Array System
International Business Machines Corporation - Armonk NY
International Classification:
G06F 11/00
US Classification:
714 6, 711114
Abstract:
Systems, methods, and computer program products for enhancing tolerance of data loss in a disk array system have been provided. Systems include a redundant array of independent disks (RAID) storage system including an array of hard disk devices (HDDs) organized in a two dimensional structure of rows and columns of HDDs. The system includes a full stride logically partitioning the rows and columns of HDDs into rows and columns of elements, the full stride including an element from each HDD in the rows and columns of HDDs, each element in the full stride residing on a physically independent HDD. Each element has an element type, wherein a first element type is a data element and a second element type is a checksum element. The system further includes a row checksum element calculated as a checksum of all data elements in a row of the full stride, and a column checksum element calculated as a checksum of all data elements in a column of the full stride, wherein the row checksum element calculation and the column checksum element calculation intersect at a single data element. The system also includes a device adapter for controlling access to the array of HDDs, the device adapter calculating the row checksum element and the column checksum element, the row checksum element and the column checksum element utilized to correct one or more failures in the array of HDDs.
System And Method For Providing A High Fault Tolerant Memory System
James A. O'Connor - Ulster Park NY, US Luiz C. Alves - Hopewell Junction NY, US William J. Clarke - Poughkeepsie NY, US Timothy J. Dell - Colchester VT, US Thomas J. Dewkett - Staatsburg NY, US Kevin C. Gower - LaGrangeville NY, US
Assignee:
International Business Machines Corporation - Armonk NY
International Classification:
G06F 11/00
US Classification:
714 62, 714 61, 714 622, 714 42
Abstract:
A system and method for providing a high fault tolerant memory system. The system includes a memory system having a memory controller, a plurality of memory modules and a mechanism. The plurality of memory modules are in communication with the memory controller and with a plurality of memory devices. The plurality of memory devices include at least one spare memory device for providing memory device sparing capability. The mechanism is for detecting that one of the memory modules has failed possibly coincident with a memory device failure on an other of the memory modules. The mechanism allows the memory system to continue to run unimpaired in the presence of the memory module failure and the possible memory device failure.
System And Method For Error Correction And Detection In A Memory System
James A. O'Connor - Ulster Park NY, US Luis C. Alves - Hopewell Junction NY, US William J. Clarke - Poughkeepsie NY, US Timothy J. Dell - Colchester VT, US Thomas J. Dewkett - Staatsburg NY, US Kevin C. Gower - LaGrangeville NY, US
Assignee:
International Business Machines Corporation - Armonk NY
International Classification:
G06F 11/00
US Classification:
714 622, 714 624, 714 25, 714 42, 714 48
Abstract:
A system and method for error correction and detection in a memory system. The system includes a memory controller, a plurality of memory modules and a mechanism. The memory modules are in communication with the memory controller and with a plurality of memory devices. The mechanism detects that one of the memory modules has failed possibly coincident with a memory device failure on an other of the memory modules. The mechanism allows the memory system to continue to run unimpaired in the presence of the memory module failure and the memory device failure.
James A. O'Connor - Ulster Park NY, US Kevin C. Gower - LaGrangeville NY, US Warren E. Maule - Cedar Park TX, US
Assignee:
International Business Machines Corporation - Armonk NY
International Classification:
G06F 12/00
US Classification:
711 5
Abstract:
A memory system with high availability is provided. The memory system includes multiple memory channels. Each memory channel includes at least one memory module with memory devices organized as partial ranks coupled to memory device bus segments. Each partial rank includes a subset of the memory devices accessible as a subchannel on a subset of the memory device bus segments. The memory system also includes a memory controller in communication with the multiple memory channels. The memory controller distributes an access request across the memory channels to access a full rank. The full rank includes at least two of the partial ranks on separate memory channels. Partial ranks on a common memory module can be concurrently accessed. The memory modules can use at least one checksum memory device as a dedicated checksum memory device or a shared checksum memory device between at least two of the concurrently accessible partial ranks.
Methods, Systems, And Computer Program Products For Dynamic Selective Memory Mirroring
James A. O'Connor - Ulster Park NY, US Kanwal Bahri - Hopewell Junction NY, US Daniel J. Henderson - Georgetown TX, US Warren E. Maule - Cedar Park TX, US Michael Mueller - Leonberg, DE Naresh Nayar - Rochester MN, US Richard Nicholas - Round Rock TX, US Eric E. Retter - Austin TX, US William J. Starke - Round Rock TX, US Michael R. Trombley - Cary NC, US Kenneth L. Wright - Austin TX, US
Assignee:
International Business Machines Corporation - Armonk NY
International Classification:
G06F 12/00 G06F 13/00 G06F 13/28
US Classification:
711162, 711E12001
Abstract:
Methods, systems, and computer program products are provided for dynamic selective memory mirroring in solid state devices. An amount of memory is reserved. Sections of the memory to select for mirroring in the reserved memory are dynamically determined. The selected sections of the memory contain critical areas. The selected sections of the memory are mirrored in the reserved memory.
Managing Activation/Deactivation Of Transaction Accounts Enabling Temporary Use Of Those Accounts
International Business Machines Corporation - Armonk NY
International Classification:
G06F017/60
US Classification:
705/039000
Abstract:
Activation and deactivation of transaction accounts are managed to enable temporary use of those accounts. A transaction account is activated to enable use of the account. In response to activation, the account is temporarily available for a defined window. Upon expiration of the window, the transaction account is deactivated.
Income is generated income for a charity using a combination of one or more immediate annuities and a life insurance policy. A designated individual serving as the annuitant and insured is selected from participating members of the charity based on the age and insurability of available participating members, so that the annuity payments will be greater than the insurance premiums and any interest on the funds source. A life insurance policy having a face value equal to the amount of the investment funds is purchased. A first immediate annuity is purchased with a portion of the available investment funds, with the payments from the first annuity being sufficient to pay the premiums on the life insurance policy. Life insurance proceeds are used to reimburse the funds source upon the death of the participating member. If investment funds are borrowed, other annuity payments may be used to pay loan interest.
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