Temperature field controlled scheduling for processing systems

US 7,174,194 B2
Filed: 08/17/2001
Issued: 02/06/2007
Est. Priority Date: 10/24/2000
Status: Expired due to Term

First Claim

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1. A method for controlling execution of multiple tasks in a processing circuit including several processing modules, comprising the steps of:

determining temperature-associated information at various areas of the processing circuit; and

in response to temperature-associated information indicating an excessive temperature at an area associated with a first of said processing modules, modifying parameters for executing tasks on one or more adjacent processing modules in order to reduce heat generated by the adjacent processing modules and contributing to the excessive temperature at the first processing module.

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Abstract

A multiprocessor system (10) includes a plurality of processing modules, such as MPUs (12), DSPs (14), and coprocessors/DMA channels (16). Power management software (38) in conjunction with profiles (36) for the various processing modules and the tasks to executed are used to build scenarios which meet predetermined power objectives, such as providing maximum operation within package thermal constraints or using minimum energy. Actual activities associated with the tasks are monitored during operation to ensure compatibility with the objectives. The allocation of tasks may be changed dynamically to accommodate changes in environmental conditions and changes in the task list. Temperatures may be computed at various points in the multiprocessor system by monitoring activity information associated with various subsystems. The activity measurements may be used to compute a current power dissipation distribution over the die. If necessary, the tasks in a scenario may be adjusted to reduce power dissipation. Further, activity counters may be selectively enabled for specific tasks in order to obtain more accurate profile information.

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15 Claims

1. A method for controlling execution of multiple tasks in a processing circuit including several processing modules, comprising the steps of:
- determining temperature-associated information at various areas of the processing circuit; and
  
  in response to temperature-associated information indicating an excessive temperature at an area associated with a first of said processing modules, modifying parameters for executing tasks on one or more adjacent processing modules in order to reduce heat generated by the adjacent processing modules and contributing to the excessive temperature at the first processing module.
- View Dependent Claims (2, 3, 4)
- - 2. The method of claim 1 wherein said determining step comprises the step of monitoring operations executed by said modules.
  - 3. The method of claim 1 wherein said determining step comprises the step of calculating power dissipation information at various locations in said processing circuit.
  - 4. The method of claim 1 wherein said determining step comprises the step of calculating a current temperature at various locations in said processing circuit.

5. A method for controlling execution of multiple tasks in a processing circuit including a plurality of processing modules, comprising the steps of:
- generating a task allocation scenario for allocating multiple tasks among the plurality of processing modules;
  
  prior to executing the tasks, estimating temperature-associated information for various locations in the processing circuit as would occur if the tasks were executed according to the scenario;
  
  determining whether a temperature threshold would be exceeded by executing the tasks according to the scenario.
- View Dependent Claims (6, 7)
- - 6. The method of claim 5 wherein said step of generating a task allocation scenario comprises the step of receiving a task list describing the tasks to be executed and a task model describing the tasks.
  - 7. The method of claim 6 wherein the task model includes initial area-specific power dissipation estimates for each task.

8. A processing circuit including a plurality of processing modules for executing multiple tasks comprising:
- circuitry for determining temperature-associated information at various areas of the processing circuit; and
  
  circuitry responsive to temperature-associated information indicating an excessive temperature at an area associated with a first of said processing modules for modifying parameters for executing tasks on one or more adjacent processing modules in order to reduce heat generated by the adjacent processing modules and contributing to the excessive temperature at the first processing module.
- View Dependent Claims (9, 10, 11)
- - 9. The processing circuit of claim 8 wherein said determining circuitry comprises circuitry for monitoring operations executed by said processing modules.
  - 10. The processing circuit of claim 8 wherein said determining circuitry comprises circuitry for calculating power dissipation information at various locations in said processing circuit.
  - 11. The processing circuit of claim 8 wherein said determining circuitry comprises circuitry for calculating a current temperature at various locations in said processing circuit.

12. A processing circuit comprising:
- a plurality of processing modules for executing multiple tasks; and
  
  circuitry for generating a task allocation scenario for allocating the tasks among the processing modules, estimating temperature-associated information for various locations in the processing circuit as would occur if the tasks were executed according to the scenario and determining whether a temperature threshold would be exceeded if the tasks were to be executed according to the scenario.
- View Dependent Claims (13, 14)
- - 13. The processing circuit of claim 12 wherein said circuitry for generating a task allocation scenario comprises circuitry for receiving a task list describing the tasks to be executed and a task model describing the tasks.
  - 14. The processing circuit of claim 13 wherein the task model includes initial area-specific power dissipation estimates for each task.

15. A mobile communications device comprising:
- a plurality of processing modules for executing a plurality of tasks;
  
  an antenna for receiving and transmitting signals; and
  
  receiver/transmitter circuitry coupled to said antenna for sending and receiving audio and data signals, said receiver/transmitter circuitry including a processing circuit comprising;
  
  circuitry for determining temperature-associated information at various areas of the processing circuit; and
  
  circuitry responsive to temperature-associated information indicating an excessive temperature at an area associated with a first of said processing modules for modifying parameters for executing tasks on one or more adjacent processing modules in order to reduce heat generated by the adjacent processing modules and contributing to the excessive temperature at the first processing module.

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Current Assignee
Texas Instruments, Inc.
Original Assignee
Texas Instruments, Inc.
Inventors
Chauvel, Gerard, D'Inverno, Dominique, Edwards, Darvin R.
Primary Examiner(s)
Tsang; Fan
Assistant Examiner(s)
Hashem; Lisa

Application Number

US09/932,361
Publication Number

US 20020065049A1
Time in Patent Office

1,999 Days
Field of Search

455/115.1, 455/67.11, 713/320, 713/310, 364/189, 395/750
US Class Current

455/574
CPC Class Codes

G06F 1/206   comprising thermal management

G06F 1/3203   Power management, i.e. even...

G06F 1/329   by task scheduling

G06F 11/0724   in a multiprocessor or a mu...

G06F 9/4893   taking into account power o...

Y02D 10/00   Energy efficient computing,...

Temperature field controlled scheduling for processing systems

First Claim

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Abstract

122 Citations

15 Claims

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Temperature field controlled scheduling for processing systems

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

122 Citations

15 Claims

Specification

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