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authorVratko Polak <vrpolak@cisco.com>2024-01-23 15:37:14 +0100
committerVratko Polak <vrpolak@cisco.com>2024-01-24 08:59:29 +0000
commit852f60f525fdc6080387fe6a3b297736c83f0834 (patch)
treed3b12ee6072995b83e348a592953ed141f22d2be /docs
parent064b326e365ad89b18b58d007d0b1f09ada65180 (diff)
feat(PyPI): update metadata for jumpavg 0.4.2
+ Convert readme to .rst + Add Usage including a basic example. - Detailed description points to C-DASH methodology. + That page is updated for new defaults and better description. + Unify readme layout and origins with MLRsearch metadata. - Not releasing new MLRsearch version just for readme improvements. + Update the TODO file. Change-Id: I76ac22b7f283f01349bf9a50459dc841e13b21ad Signed-off-by: Vratko Polak <vrpolak@cisco.com>
Diffstat (limited to 'docs')
-rw-r--r--docs/content/methodology/trending/analysis.md25
1 files changed, 16 insertions, 9 deletions
diff --git a/docs/content/methodology/trending/analysis.md b/docs/content/methodology/trending/analysis.md
index fe952259ab..eb1c8a741b 100644
--- a/docs/content/methodology/trending/analysis.md
+++ b/docs/content/methodology/trending/analysis.md
@@ -31,8 +31,9 @@ normally, currently we do not have a better tractable model.
Here, "sample" should be the result of single trial measurement, with group
boundaries set only at test run granularity. But in order to avoid detecting
causes unrelated to VPP performance, the current presentation takes average of
-all trials within the run as the sample. Effectively, this acts as a single
+all trials within the MRR run as the sample. Effectively, this acts as a single
trial with aggregate duration.
+(Trending of NDR or PDR results take just one sample, the conditional throughput).
Performance graphs show the run average as a dot (not all individual trial
results).
@@ -59,12 +60,20 @@ group average (more on that later), group stdev and then all the samples.
Luckily, the "all the samples" part turns out to be quite easy to compute.
If sample values are considered as coordinates in (multi-dimensional)
-Euclidean space, fixing stdev means the point with allowed coordinates
-lays on a sphere. Fixing average intersects the sphere with a (hyper)-plane,
-and Gaussian probability density on the resulting sphere is constant.
+Euclidean space, fixing average restrict possible values to a (hyper-)plane.
+Then, fixing stdev means the point with allowed coordinates
+lays on a sphere (centered the "all samples equal to average" point)
+within that hyper-plane.
+And the Gaussian probability density on the resulting sphere is constant.
So the only contribution is the "area" of the sphere, which only depends
on the number of samples and stdev.
+Still, to get the information content in bits, we need to know what "size"
+one "pixel" of that area is.
+Our implementation assumes that measurement precision is such that
+the max sample value is 4096 (2^12) pixels (inspired by 0.5% precision
+of NDRPDR tests, roughly two pixels around max value).
+
A somehow ambiguous part is in choosing which encoding
is used for group size, average and stdev.
Different encodings cause different biases to large or small values.
@@ -74,13 +83,11 @@ for stdev and average of the first group,
but for averages of subsequent groups we have chosen a distribution
which discourages delimiting groups with averages close together.
-Our implementation assumes that measurement precision is 1.0 pps.
-Thus it is slightly wrong for trial durations other than 1.0 seconds.
-Also, all the calculations assume 1.0 pps is totally negligible,
-compared to stdev value.
-
The group selection algorithm currently has no parameters,
all the aforementioned encodings and handling of precision is hard-coded.
+(Although the underlying library "jumpavg" allows users to change the precision,
+either in absolute units or in bits per max sample.)
+
In principle, every group selection is examined, and the one encodable
with least amount of bits is selected.
As the bit amount for a selection is just sum of bits for every group,