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You will implement three audio effects: a fixed-length delay, a variable-length delay, and a feedback-echo. All require storing many samples in external memory.

Introduction

Many audio effects require storing thousands of samples in memory on the DSP. Because there is not enough memory on theDSP microprocessor itself to store so many samples, external memory must be used.

In this exercise, you will use external memory to implement a long audio delay and an audio echo. Refer to Core File: Accessing External Memory on TI TMS320C54x for a description and examples of accessingexternal memory.

Delay and echo implementation

You will implement three audio effects: a long, fixed-length delay, a variable-length delay, and a feedback-echo.

Fixed-length delay implementation

First, implement the 131,072-sample delay shown in [link] using the READPROG and WRITPROG macros. Use memory locations 010000h - 02ffffh in external Program RAM to do this; you may also want to use the dld and dst opcodes to store and retrieve the 32-bit addresses for the accumulators. Notethat these two operations store the words in memory in big-endian order, with the high-order word first.

Fixed-Length Delay

Remember that arithmetic operations that act on the accumulators, such as the add instruction, operate on the complete 32- or 40-bit value. Also keep inmind that since 131,072 is a power of two, you can use masking (via the and instruction) to implement the circular buffer easily. This delay will be easy toverify on the oscilloscope. (How long, in seconds, do you expect this delay to be?)

Variable-delay implementation

Once you have your fixed-length delay working, make a copy and modify it so that the delay can be changed to any lengthbetween zero (or one) and 131,072 samples by changing the value stored in one double-word pair in memory. You shouldkeep the buffer length equal to 131,072 and change only your addressing of the sample being read back; it is moredifficult to change the buffer size to a length that is not a power of two.

Verify that your code works as expected by timing the delay from input to output and ensuring that it is approximatelythe correct length.

Feedback-echo implementation

Last, copy and modify your code so that the value taken from the end of the variable delay from Variable-delay implementation is multiplied by a gain factor and then added back into theinput, and the result is both saved into the delay line and sent out to the digital-to-analog converters. [link] shows the block diagram. (It may be necessary to multiply the input by a gain as well toprevent overflow.) This will make a one-tap feedback echo, an simple audio effect that sounds remarkably good. To testthe effect, connect the DSP EVM input to a CD player or microphone and connect the output to a loudspeaker. Verifythat the echo can be heard multiple times, and that the spacing between echoes matches the delay length you havechosen.

Feedback Echo

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Source:  OpenStax, Dsp laboratory with ti tms320c54x. OpenStax CNX. Jan 22, 2004 Download for free at http://cnx.org/content/col10078/1.2
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