PAL: Fix pdf

[csit.git] / docs / report / introduction / test_environment_intro.rst

diff --git a/docs/report/introduction/test_environment_intro.rst b/docs/report/introduction/test_environment_intro.rst
index 1965645..da817f2 100644 (file)
--- a/docs/report/introduction/test_environment_intro.rst
+++ b/docs/report/introduction/test_environment_intro.rst
@@ -15,8 +15,8 @@ topology types are used:
   server as TG both connected in ring topology.
 
 Tested SUT servers are based on a range of processors including Intel
-Xeon Haswell-SP, Intel Xeon Skylake-SP, Arm, Intel Atom. More detailed
-description is provided in
+Xeon Haswell-SP, Intel Xeon Skylake-SP, Intel Xeon Cascade Lake-SP, Arm, Intel
+Atom. More detailed description is provided in
 :ref:`tested_physical_topologies`. Tested logical topologies are
 described in :ref:`tested_logical_topologies`.
 
@@ -24,11 +24,10 @@ Server Specifications
 ---------------------
 
 Complete technical specifications of compute servers used in CSIT
-physical testbeds are maintained on FD.io wiki pages: `CSIT/Testbeds:
-Xeon Hsw, VIRL
-<https://wiki.fd.io/view/CSIT/Testbeds:_Xeon_Hsw,_VIRL.#FD.io_CSIT_testbeds_-_Xeon_Haswell.2C_VIRL>`_
-and `CSIT Testbeds: Xeon Skx, Arm, Atom
-<https://wiki.fd.io/view/CSIT/Testbeds:_Xeon_Skx,_Arm,_Atom.#Server_Specification>`_.
+physical testbeds are maintained in FD.io CSIT repository:
+`FD.io CSIT testbeds - Xeon Cascade Lake`_,
+`FD.io CSIT testbeds - Xeon Skylake, Arm, Atom`_ and
+`FD.io CSIT Testbeds - Xeon Haswell`_.
 
 Pre-Test Server Calibration
 ---------------------------
@@ -38,16 +37,16 @@ as impacting data plane performance tests. Calibrating those parameters
 is part of FD.io CSIT pre-test activities, and includes measuring and
 reporting following:
 
-#. System level core jitter – measure duration of core interrupts by
+#. System level core jitter - measure duration of core interrupts by
    Linux in clock cycles and how often interrupts happen. Using
    `CPU core jitter tool <https://git.fd.io/pma_tools/tree/jitter>`_.
 
-#. Memory bandwidth – measure bandwidth with `Intel MLC tool
+#. Memory bandwidth - measure bandwidth with `Intel MLC tool
    <https://software.intel.com/en-us/articles/intelr-memory-latency-checker>`_.
 
-#. Memory latency – measure memory latency with Intel MLC tool.
+#. Memory latency - measure memory latency with Intel MLC tool.
 
-#. Cache latency at all levels (L1, L2, and Last Level Cache) – measure
+#. Cache latency at all levels (L1, L2, and Last Level Cache) - measure
    cache latency with Intel MLC tool.
 
 Measured values of listed parameters are especially important for
@@ -55,5 +54,4 @@ repeatable zero packet loss throughput measurements across multiple
 system instances. Generally they come useful as a background data for
 comparing data plane performance results across disparate servers.
 
-Following sections include measured calibration data for Intel Xeon
-Haswell and Intel Xeon Skylake testbeds.
+Following sections include measured calibration data for testbeds.