Documentation++
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README.md
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README.md
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@ -189,7 +189,7 @@ Internally, a sine and cosine wave is generated to perform this function, and th
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shift_addition_cc <rate>
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Operation is the same as with `shift_math_cc`.
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Operation is the same as for `shift_math_cc`.
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Internally, this function uses trigonometric addition formulas to generate sine and cosine, which is a bit faster. (About 4 times on the machine I have tested it on.)
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@ -203,6 +203,20 @@ Operation is the same as with `shift_math_cc`.
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Internally, this function uses a look-up table (LUT) to recall the values of the sine function (for the first quadrant).
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The higher the table size is, the smaller the phase error is.
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shift_addfast_cc <rate>
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Operation is the same as for `shift_math_cc`.
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Internally, this function uses a NEON-accelerated algorithm on capable systems, so it is advised to use this one on ARM boards.
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shift_unroll_cc <rate>
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Operation is the same as for `shift_math_cc`.
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This uses a modified algoritm that first stores a vector of sine and cosine values for given phase differences.
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The loop in this function unrolls quite well if compiled on a PC. It was the fastest one on an i7 CPU during the tests.
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decimating_shift_addition_cc <rate> [decimation]
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It shifts the input signal in the frequency domain, and also decimates it, without filtering. It will be useful as a part of the FFT channelizer implementation (to be done).
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@ -347,6 +361,12 @@ The actual number of padding samples can be determined by running `cat csdr.c |
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It exchanges the first and second part of the FFT vector, to prepare it for the waterfall/spectrum display. It should operate on the data output from `logpower_cf`.
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setbuf <buffer_size>
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If the environment variable `CSDR_DYNAMIC_BUFSIZE_ON` is set to 1, then you can use this command to set the input buffer size for the next `csdr` process in the chain.
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#### Control via pipes
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Some parameters can be changed while the `csdr` process is running. To achieve this, some `csdr` functions have special parameters. You have to supply a fifo previously created by the `mkfifo` command. Processing will only start after the first control command has been received by `csdr` over the FIFO.
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