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Make a careful study of the components systolic processor modules are realized with.

2. Present the results of your home-work on determining the function of two variants of the processor module and your design of the structure-functional model at the level of logic elements.

3. Input into your PC a model description written in a high-level programming language.

4. Using a random number generator, generate a series of input signals for each module.

5. Get code combinations for each level of signal transformation.

Contents of the Experimentation Paper

1. Home work results.

2. Code combinations for each level of processor module structure.

3. Conclusions purpose of (the modules, their comparison with chosen analogs in function, advantages and disadvantages of the modeled realization and its analogue).

Home work

1. Define the set of logic elements to be used from the structure of each module (the structures are depicted in Fig. 1.2 and 1.3).

2. Define the function of each module.

3. Define the function of each level of the module structure. The structure level is a level of logic elements which perform only one elementary logic transformation of input codes. Examples of one-level and multi-level structures are shown in Fig. 1.4 and 1.5 correspondingly.

4. Make up a procedure of defining an input binary array (x1x2x3x4x5x6) with the help of a random number generator.

5. Develop models of each module on the level of structure-functional description of each module level. Provide for possible output of code values at each structure level.

Questions for the Self-Testing

1. What is the simulation model?

2. Define the time characteristics (number of levels) of data transformation in the modules being modeled.

3. Determine the hardware expenditures in the modules of a systolic processor.

MODULE 2

Calculation-Graphical Work


Date: 2016-03-03; view: 508


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