CPU is becoming more and more complex.
Some CPUs are made up of several dies.
The cores in different dies may be different.
The user tool can be updated to show more
about CPU components.
This patch addes below informantion,
1, Group the cores based on the die.
2, A core is either a performance core or an
efficency core.
A performance core is shown as 'Core-P'.
An efficency core is shown as 'Core-E'.
The known limitation/issue.
1, To tell a core is P-core or E-core is based on if
this core shares L2 cache with others.
Not sure if there's any better criteria.
2, OS shows there's only 1 die in a CPU although there're
actually several.
Hope the accurate information can be proved by the coming
OSs.
There's also other information, like accelerators and even
memory are embedded into CPU. In the future the user tool
may be updated to show more.
Signed-off-by: Wenzhuo Lu <wenzhuo...@intel.com>
---
usertools/cpu_layout.py | 57 +++++++++++++++++++++++++++++++----------
1 file changed, 43 insertions(+), 14 deletions(-)
diff --git a/usertools/cpu_layout.py b/usertools/cpu_layout.py
index 891b9238fa..9812df0503 100755
--- a/usertools/cpu_layout.py
+++ b/usertools/cpu_layout.py
@@ -1,11 +1,15 @@
#!/usr/bin/env python3
# SPDX-License-Identifier: BSD-3-Clause
-# Copyright(c) 2010-2014 Intel Corporation
+# Copyright(c) 2010-2023 Intel Corporation
# Copyright(c) 2017 Cavium, Inc. All rights reserved.
sockets = []
+dies = []
cores = []
core_map = {}
+core_p_e = {}
+title_len = 47
+die_len = 6
base_path = "/sys/devices/system/cpu"
fd = open("{}/kernel_max".format(base_path))
max_cpus = int(fd.read())
@@ -20,19 +24,38 @@
fd = open("{}/cpu{}/topology/physical_package_id".format(base_path, cpu))
socket = int(fd.read())
fd.close()
+ fd = open("{}/cpu{}/topology/die_id".format(base_path, cpu))
+ die = int(fd.read())
+ fd.close()
+ fd = open("{}/cpu{}/topology/thread_siblings_list".format(base_path, cpu))
+ threads_share = str(fd.read())
+ fd.close()
+ fd = open("{}/cpu{}/cache/index2/shared_cpu_list".format(base_path, cpu))
+ l2_cache_share = str(fd.read())
+ fd.close()
+ if (threads_share == l2_cache_share):
+ p_e = '-P'
+ else:
+ p_e = '-E'
if core not in cores:
cores.append(core)
+ if die not in dies:
+ dies.append(die)
if socket not in sockets:
sockets.append(socket)
- key = (socket, core)
+ key = (socket, die, core)
+ key_p_e = (die, core)
if key not in core_map:
core_map[key] = []
+ if key_p_e not in core_p_e:
+ core_p_e[key_p_e] = p_e
core_map[key].append(cpu)
-print(format("=" * (47 + len(base_path))))
+print(format("=" * (title_len + len(base_path))))
print("Core and Socket Information (as reported by '{}')".format(base_path))
-print("{}\n".format("=" * (47 + len(base_path))))
+print("{}\n".format("=" * (title_len + len(base_path))))
print("cores = ", cores)
+print("dies = ", dies)
print("sockets = ", sockets)
print("")
@@ -43,22 +66,28 @@
+ len('[]') + len('Socket ')
max_core_id_len = len(str(max(cores)))
-output = " ".ljust(max_core_id_len + len('Core '))
+socket_space_len = max_core_id_len + len('Core ') + die_len + len('-P')
+output = " ".ljust(socket_space_len)
for s in sockets:
output += " Socket %s" % str(s).ljust(max_core_map_len - len('Socket '))
print(output)
-output = " ".ljust(max_core_id_len + len('Core '))
+output = " ".ljust(socket_space_len)
for s in sockets:
output += " --------".ljust(max_core_map_len)
output += " "
print(output)
-for c in cores:
- output = "Core %s" % str(c).ljust(max_core_id_len)
- for s in sockets:
- if (s, c) in core_map:
- output += " " + str(core_map[(s, c)]).ljust(max_core_map_len)
- else:
- output += " " * (max_core_map_len + 1)
- print(output)
+for d in dies:
+ print("Die", die)
+ for c in cores:
+ output = " ".ljust(die_len)
+ output += "Core"
+ output += core_p_e[(d, c)]
+ output += " %s" % str(c).ljust(max_core_id_len)
+ for s in sockets:
+ if (s, d, c) in core_map:
+ output += " " + str(core_map[(s, d,
c)]).ljust(max_core_map_len)
+ else:
+ output += " " * (max_core_map_len + 1)
+ print(output)
--
2.25.1
