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TigerSHARC processor and evaluation board

TigerSHARC processor and evaluation board. Different capabilities Different functionality. Concepts tackled. Differences between “processor” and “evaluation board” Functionality present on TigerSHARC evaluation board TigerSHARC is NOT a microcontroller.

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TigerSHARC processor and evaluation board

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  1. TigerSHARCprocessor and evaluation board Different capabilitiesDifferent functionality

  2. Concepts tackled • Differences between “processor” and “evaluation board” • Functionality present on TigerSHARC evaluation board • TigerSHARC is NOT a microcontroller. • A/D and D/A added simply to give evaluation board “something to process” • ENEL619.04 (Topic 23) “project” • Learn about TigerSHARC processor architecture • Learn basics of how assembly code and architecture interact • Set up a project (mainly in) in “C++” to capture a signal • Do some signal processing in “C++” • Work through optimizing “one” subroutine into assembly code using more and more parallel processor features • Use the same (or equivalent) code to look at optimization issues on other processor Blackfin, TI C64XX+ and C64XX, and Beagle (2 core with ARM and TI C64XX

  3. TS201S Evaluation board contains 2 processors P0 (DSPA) and P1 (DSPB) TWO TS201S processors Error messageswhen linking about P0 and P1 mean problems with code on specific Processor 0 (P0) Or processor (P1)

  4. Evaluation board – Link Ports Designed for “star” Configuration – Up to 8 processorsworking together P0 to P7 (selectableby switches on backof evaluation board(Never tried – Don’tdestroy link ports)

  5. JTAG debug ONLY AVALIABLE IN 3rd floor labs • ICT318 TigerSHARC (some stations). • ICT320 Blackfin (some stations). • Some boards available for home use of USB connector. Lower speed communication rates than JTAG (factor of 20 - 100). • Discuss deposit issues for home loan. Audio connectors.Max input voltage around 1 V p-pwith no DC. Too great a voltage destroys the board Use MPEG or other players Keep Volume down Damage and distortion issues

  6. Will be using IRQ lines IRQ0 – button switch on panel IRQ1 – digital signal from light sensor Demonstrate “SIMPLE” dual processing Buttons and LEDs splitbetween processors Much “stuff” on the boardshared between processors(but NOT all)

  7. Evaluation BoardArchitecture P0 P1

  8. Processorscan access each other’sINTERNALmemory and registers Processorscan shareEXTERNALmemory Memory allocationdepends on ID # MEMORY MAP USED IN 8 TigerSHARC PROCESSOR CLUSTER

  9. Note – labeled processor A and Brather than processor 0 and 1

  10. Note – labeled processor A and Brather than processor 0 and 1 Will be using IRQ lines IRQ0 –button switch on panel IRQ1 – digital signal from light sensor Demonstrate “SIMPLE” dual processing

  11. How to use the evaluation board capability • Read a lot in the hardware manual • Modify some of the example programs provided in C:\Program Files\Analog Devices\VisualDSP 5.0\TS\Examples\ADSP-TS201 EZ-Kit Lite and then read a lot in the hardware manual

  12. CONCEPT OF LABS • Signal processing demonstrated through the development of algorithms for an improved doctors “stethoscope” and associated equipment. • Demonstration rather than commercial exploitation of TigerSHARC’s highly parallel processing capability. • Basically looking for something reasonably easy, but non-trivial, to hang the lectures and laboratories on.

  13. Example of a suitable projectTSL230R-Based Pulse Oximeter A small section of plastic electrical conduit houses both the TSL230R sensor and the red and IR LEDs. The TSL230R registers the amount of light passing through the inside diameter of the conduit, which, in this case, is through a patient’s finger. Adapted from www.circuitcellar.com/library/print/1204/Bachiochi173/4.htm

  14. What to we expect to see? As blood flows through the circulatory system, it changes density because of the heart’s pumping pressure. This change also changes the absorption rate of light, effectively modulating the light absorption. The total light absorption is a combination of modulated and constant absorption, which is similar to a small AC noise riding atop a DC voltage. Adapted from www.circuitcellar.com/library/ print/1204/Bachiochi173/4.htm

  15. How we far will go in the laboratory is your choice Study the absorption relationship of oxygen levels in the blood for the red and IR wavelengths. Notice how the oxygen level affects the absorption rate at the red wavelength while it remains almost constant at IR wavelengths. Adapted from www.circuitcellar.com/library/print/1204/Bachiochi173/4.htm

  16. Details from Circuit Cellar Article The TSL230R’s frequency output displayed on my oscilloscope shows a slow frequency jitter marked by the vertical cursors. The output frequency shifts with the varying amount of light absorption because of the blood pulsing within the light’s path. Adapted from www.circuitcellar.com/library/print/1204/Bachiochi173/5.htm

  17. Period of light sensor from article – can we do better? This Excel chart displays imported sample values over time. Samples of the output frequency (30 samples per second formatted in microseconds) were sent out the serial port and captured to a file by HyperTerminal. Adapted from www.circuitcellar.com/library/print/1204/Bachiochi173/7.htm

  18. Labs. • Check article for how “determine heart rate” was handled in original article. • Can we pick out a more accurate heart beat / signal using a DSP convolution / correlation approach? • These are numerical methods involving much memory use, adds and multiplications. Typical DSP stuff. • Straight forward optimization show TigerSHARC capability • If did on Beagle, Blackfin – what differences in development and performance

  19. ECE-ADI-Project • Was asked to develop (as part of Analog Devices University Ambassadorship) to develop demonstration programs and place on the web • Have now developed • SHARC – ADSP-21061 (Previous 515) • Audio project utilities • Blackfin – ADSP-BF533 (ENCM511 in 2008) • Audio project utilities, Video Project utilities • Blackfin – ADSP-BF533 (Current ENCM491 – Nygren) • Real time operating systems • TigerSHARC – ADSP-TS201 (Current ENCM515, ENCM619.04 (Topic23) • Embedded Test Driven Development Environment (E-TDD) • Blackfin, TigerSHARC, SHARC, Microsoft studio • Find at http://www.enel.ucalgary.ca/People/Smith/ECE-ADI-Project/Index/index.htm

  20. The code is not well written unless it is testable Write C code with tests to show concepts works Optimize the code in one way, use same test to show still works but faster Optimize the code in another way, use same test to show still works but faster still Move code over to another processor, use same tests etc

  21. Standard development methodWaterfall method • Heavy on documentation, light on testing TLD -- IDAA TestLastDevelopment(if done at all)

  22. TESTS EXPRESS DESIGN INTENTTDD approach to develop C++ code Work with customer to check that the TESTS PROPERLY EXPRESS WHAT CUSTOME WANTS DONE Iterative process with customer “heavily involved” – “Agile” methodology. CUSTOMER DEVELOPER

  23. Some embedded stuff on test driven development in the literature Examine in more detail as part of “individual” presentation?

  24. Speed improvements when we use the “C++” optimizer • Rule #1 of assembly code programming Don’t use assembly code programming • What speed improvements occur when you turn on the “C++ optimizer” – use Embedded Unit “Timing features”? • Wewill look at the code in detail to understand how the compiler is taking advantage of TigerSHARC processor to get code optimization. • Initially we will “look” at that code and say “oh my!” • Later we can think about comparing the performance of the compilers on different processors. Position paper or project

  25. Concepts tackled • Differences between “processor” and “evaluation board” • Functionality present on TigerSHARC evaluation board • TigerSHARC is NOT a microcontroller. • A/D and D/A added simply to give evaluation board “something to process” • ENEL619.04 (Topic 23) “project” • Learn about TigerSHARC processor architecture • Learn basics of how assembly code and architecture interact • Set up a project (mainly in) in “C++” to capture a signal • Do some signal processing in “C++” • Work through optimizing “one” subroutine into assembly code using more and more parallel processor features • Use the same (or equivalent) code to look at optimization issues on other processor Blackfin, TI C64XX+ and C64XX, and Beagle (2 core with ARM and TI C64XX

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