Accumulator Error Feedback
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[[Image:Gleich.jpg|thumb|right|429px|CSUM() in Digital Signal Processing terms: | [[Image:Gleich.jpg|thumb|right|429px|CSUM() in Digital Signal Processing terms: | ||
z<sup>-1</sup> is a unit delay, Q is a floating-point quantizer to 64 bits, | z<sup>-1</sup> is a unit delay, Q is a floating-point quantizer to 64 bits, | ||
| - | q<sub>i</sub> represents error due to quantization (additive by definition). < | + | q<sub>i</sub> represents error due to quantization (additive by definition). <math>-</math> Jon Dattorro]] |
<pre> | <pre> | ||
function s_hat = csum(x) | function s_hat = csum(x) | ||
Revision as of 22:49, 28 November 2017
function s_hat = csum(x) % CSUM Sum of elements using a compensated summation algorithm. % % For large vectors, the native sum command in Matlab does % not appear to use a compensated summation algorithm which % can cause significant roundoff errors. % % This code implements a variant of Kahan's compensated % summation algorithm which often takes about twice as long, % but produces more accurate sums when the number of % elements is large. -David Gleich % % Also see SUM. % % % Matlab csum() example: % clear all % csumv = 0; % while ~csumv % v = randn(13e6,1); % rsumv = abs(sum(v) - sum(v(end:-1:1))); % disp(['rsumv = ' num2str(rsumv,'%18.16f')]); % [~, idx] = sort(abs(v),'descend'); % x = v(idx); % csumv = abs(csum(x) - csum(x(end:-1:1))); % disp(['csumv = ' num2str(csumv,'%18.16e')]); % end s_hat=0; e=0; for i=1:numel(x) s_hat_old = s_hat; y = x(i) + e; s_hat = s_hat_old + y; e = (s_hat_old - s_hat) + y; %calculate difference first (Higham) end return
links
Accuracy and Stability of Numerical Algorithms 2e, ch.4.3, Nicholas J. Higham, 2002
For multiplier error feedback, see:
Implementation of Recursive Digital Filters for High-Fidelity Audio
Comments on Implementation of Recursive Digital Filters for High-Fidelity Audio