Jason T Brewer

US Patent:

6657999, Dec 2, 2003

Filed:

Mar 31, 1997

Appl. No.:

08/828484

Inventors:

Jason M. Brewer - Dallas TX

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

H04L 1216

US Classification:

370362, 370351, 370360, 709253, 709238, 710 1

Abstract:

A network configuration ( ) including a first network medium which is a 1394 network as well as a second network medium. Each of the first and second network media is coupled to a corresponding plurality of host-computers (H through H and H through H ). The network configuration further includes a link layer gateway computer (H ) coupled to both. the first network medium and the second network medium. The link layer gateway computer is operable to communicate a data packet from a source host computer selected from one of the plurality of host computers coupled to the first network medium to a destination host computer selected from one of the plurality of host computers coupled to the second network medium. Additionally, the link layer gateway computer is operable to communicate a data packet from a source host computer selected from one of the plurality of host computers coupled to the second network medium to a destination host computer selected from one of the plurality of host computers coupled to the first network medium.

US Patent:

7254131, Aug 7, 2007

Filed:

Oct 27, 2003

Appl. No.:

10/694277

Inventors:

Jason M. Brewer - Dallas TX, US

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

H04L 12/50
G06F 15/16

US Classification:

370362, 709250

Abstract:

A network configuration () including a first network medium which is a 1394 network as well as a second network medium. Each of the first and second network media is coupled to a corresponding plurality of host computers (H through H and H through H). The network configuration further includes a link layer gateway computer (H) coupled to both the first network medium and the second network medium. The link layer gateway computer is operable to communicate a data packet from a source host computer selected from one of the plurality of host computers coupled to the first network medium to a destination host computer selected from one of the plurality of host computers coupled to the second network medium. Additionally, the link layer gateway computer is operable to communicate a data packet from a source host computer selected from one of the plurality of host computers coupled to the second network medium to a destination host computer selected from one of the plurality of host computers coupled to the first network medium.

US Patent:

7512664, Mar 31, 2009

Filed:

Jan 28, 2000

Appl. No.:

09/494218

Inventors:

Jason M Brewer - Dallas TX, US

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

G06F 15/16
G06F 9/44

US Classification:

709217, 709218, 717168

Abstract:

The client loads an application class through a gateway server that preloades and preresolves a class, creates a binary representation of new portions of the preloaded and preresolved class, and sends only the new portion to the client.

US Patent:

20050246502, Nov 3, 2005

Filed:

Apr 28, 2004

Appl. No.:

10/833568

Inventors:

Rhishikesh Joshi - Dallas TX, US
Jason Brewer - Dallas TX, US
Sripal Bagadia - Dallas TX, US

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

G06F012/08

US Classification:

711147000, 711202000

Abstract:

In at least some embodiments, a system comprises two processor cores, an external memory coupled to the two processor cores, and a program that is executable at least in part by one or both of the processing cores. When executed by one of the processor cores the program causes the processor core to map a private region of the external memory, which is accessible only to one of the two processor cores, to a pre-reserved region of memory addresses used by the other processor core. The mapping permits the processor core that does not have direct access to the private memory region of the other processor core to access data stored in the private region. In at least some embodiments, the mapped memory can be subsequently unmapped and re-mapped to another private memory region at run-time.

US Patent:

62956450, Sep 25, 2001

Filed:

Dec 22, 1997

Appl. No.:

8/995597

Inventors:

Jason M. Brewer - Dallas TX

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

G06F 9445

US Classification:

717 11

Abstract:

A wireless data platform (10) comprises a plurality of processors (12,16). Channels of communication are set up between processors such that they may communicate information as tasks are performed. A dynamic cross compiler (80) executed on one processor compiles code into native processing code for another processor. A dynamic cross linker (82) links the compiled code for other processor. Native code may also be downloaded to the platform through use of a JAVA Bean (90) (or other language type) which encapsulates the native code. The JAVA Bean can be encrypted and digitally signed for security purposes.

US Patent:

59180161, Jun 29, 1999

Filed:

Jun 10, 1997

Appl. No.:

8/872466

Inventors:

Jason M. Brewer - Dallas TX
John C. Linn - Richardson TX
Keith L. Perrin - Houston TX
Robert E. Tonsing - Troy TX

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

G06F 1700

US Classification:

3952005

Abstract:

A method of configuring a mobile computer (H3) among different computer network configurations (N1, N2). In this method, the mobile computer is connected (18) to a first network medium in various steps. In one step, a network interface circuit (NIC) of the mobile computer is coupled to communicate with the first network medium. In another step, the mobile computer is configured to have an IP address allocated for the first network medium. Next, there is the step (20) of performing a program operation on the mobile computer to determine whether a dynamic configuration protocol is available on the first network medium. Another step performs a program operation to store an indicator in a storage resource of the mobile computer representing whether a dynamic configuration protocol is available on the first network medium. Next, the mobile computer is disconnected (22) from the first network medium, including uncoupling the network interface circuit of the mobile computer from communicating with the first network medium. Next, the mobile computer is connected (24) to a second network medium, including coupling the network interface circuit of the mobile computer to communicate with the second network medium, and performing a program operation on the mobile computer to request a user interface input.

US Patent:

62197878, Apr 17, 2001

Filed:

Dec 22, 1997

Appl. No.:

8/995603

Inventors:

Jason M. Brewer - Dallas TX

Assignee:

Texas Instruments Incorporated - Dallas TX

International Classification:

H04L 900

US Classification:

713167

Abstract:

A wireless data platform (10) comprises a plurality of processors (12, 16). Channels of communication are set up between processors such that they may communicate information as tasks are performed. A dynamic cross compiler (80) executed on one processor compiles code into native processing code for another processor. A dynamic cross linker (82) links the compiled code for other processor. Native code may also be downloaded to the platform through use of a JAVA Bean (90) (or other language type) which encapsulates the native code. The JAVA Bean can be encrypted and digitally signed for security purposes.