[v1.02] Bump version

[v1.01] Merge bugfix2 branch
[v1.01] Merge bugfix branch
2026-03-25 16:00:39 +01:00 · 2022-04-24 11:42:32 +01:00 · 2022-04-24 11:42:06 +01:00 · 2022-04-24 11:41:46 +01:00 · 2022-03-06 10:40:05 +01:00 · 2022-02-10 22:27:51 +01:00
46 changed files with 1286 additions and 254 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -1 +1,2 @@
 cpufetch
 *.o
--- a/352
+++ b/352
@@ -1,21 +1,339 @@
-MIT License
+                    GNU GENERAL PUBLIC LICENSE
                       Version 2, June 1991
-Copyright (c) 2018 Dr-Noob
+ Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 Everyone is permitted to copy and distribute verbatim copies
 of this license document, but changing it is not allowed.
-Permission is hereby granted, free of charge, to any person obtaining a copy
+                            Preamble
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:
-The above copyright notice and this permission notice shall be included in all
+  The licenses for most software are designed to take away your
-copies or substantial portions of the Software.
+freedom to share and change it.  By contrast, the GNU General Public
 License is intended to guarantee your freedom to share and change free
 software--to make sure the software is free for all its users.  This
 General Public License applies to most of the Free Software
 Foundation's software and to any other program whose authors commit to
 using it.  (Some other Free Software Foundation software is covered by
 the GNU Lesser General Public License instead.)  You can apply it to
 your programs, too.
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+  When we speak of free software, we are referring to freedom, not
-IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+price.  Our General Public Licenses are designed to make sure that you
-FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+have the freedom to distribute copies of free software (and charge for
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-LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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+in new free programs; and that you know you can do these things.
-SOFTWARE.
+
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 The hypothetical commands `show w' and `show c' should show the appropriate
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 This General Public License does not permit incorporating your program into
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--- a/28
+++ b/28
@@ -12,10 +12,17 @@ COMMON_HDR = $(SRC_COMMON)ascii.h $(SRC_COMMON)cpu.h $(SRC_COMMON)udev.h $(SRC_C
 ifneq ($(OS),Windows_NT)
 	arch := $(shell uname -m)
-	ifeq ($(arch), $(filter $(arch), x86_64 amd64 i686))
+	ifeq ($(arch), $(filter $(arch), x86_64 amd64 i386 i486 i586 i686))
 		SRC_DIR=src/x86/
 		SOURCE += $(COMMON_SRC) $(SRC_DIR)cpuid.c $(SRC_DIR)apic.c $(SRC_DIR)cpuid_asm.c $(SRC_DIR)uarch.c
-		HEADERS += $(COMMON_HDR) $(SRC_DIR)cpuid.h $(SRC_DIR)apic.h $(SRC_DIR)cpuid_asm.h $(SRC_DIR)uarch.h
+		HEADERS += $(COMMON_HDR) $(SRC_DIR)cpuid.h $(SRC_DIR)apic.h $(SRC_DIR)cpuid_asm.h $(SRC_DIR)uarch.h $(SRC_DIR)freq/freq.h
                os := $(shell uname -s)
                ifeq ($(os), Linux)
 			SOURCE += $(SRC_DIR)freq/freq.c freq_nov.o freq_avx.o freq_avx512.o
 			HEADERS += $(SRC_DIR)freq/freq.h
 			CFLAGS += -pthread
                endif
 		CFLAGS += -DARCH_X86 -std=c99 -fstack-protector-all
 	else ifeq ($(arch), $(filter $(arch), ppc64le ppc64 ppcle ppc))
 		SRC_DIR=src/ppc/
@@ -51,18 +58,27 @@ else
 	OUTPUT=cpufetch.exe
 endif
-all: CFLAGS += -O3
+all: CFLAGS += -O2
 all: $(OUTPUT)
 debug: CFLAGS += -g -O0
 debug: $(OUTPUT)
-static: CFLAGS += -static -O3
+static: CFLAGS += -static -O2
 static: $(OUTPUT)
-strict: CFLAGS += -O3 -Werror -fsanitize=undefined -D_FORTIFY_SOURCE=2
+strict: CFLAGS += -O2 -Werror -fsanitize=undefined -D_FORTIFY_SOURCE=2
 strict: $(OUTPUT)
 freq_nov.o: Makefile $(SRC_DIR)freq/freq_nov.c $(SRC_DIR)freq/freq_nov.h $(SRC_DIR)freq/freq.h
 	$(CC) $(CFLAGS) $(SANITY_FLAGS) -c -pthread $(SRC_DIR)freq/freq_nov.c -o $@
 freq_avx.o: Makefile $(SRC_DIR)freq/freq_avx.c $(SRC_DIR)freq/freq_avx.h $(SRC_DIR)freq/freq.h
 	$(CC) $(CFLAGS) $(SANITY_FLAGS) -c -mavx -pthread $(SRC_DIR)freq/freq_avx.c -o $@
 freq_avx512.o: Makefile $(SRC_DIR)freq/freq_avx512.c $(SRC_DIR)freq/freq_avx512.h $(SRC_DIR)freq/freq.h
 	$(CC) $(CFLAGS) $(SANITY_FLAGS) -c -mavx512f -pthread $(SRC_DIR)freq/freq_avx512.c -o $@
 $(OUTPUT): Makefile $(SOURCE) $(HEADERS)
 	$(CC) $(CFLAGS) $(SANITY_FLAGS) $(SOURCE) -o $(OUTPUT)
@@ -70,7 +86,7 @@ run: $(OUTPUT)
 	./$(OUTPUT)
 clean:
-	@rm -f $(OUTPUT)
+	@rm -f $(OUTPUT) *.o
 install: $(OUTPUT)
 	install -Dm755 "cpufetch"   "$(DESTDIR)$(PREFIX)/bin/cpufetch"
--- a/README.md
+++ b/README.md
@@ -1,20 +1,35 @@
 <p align="center"><img width=50% src="./pictures/cpufetch.png"></p>
 <div align="center">
 ![GitHub tag (latest by date)](https://img.shields.io/github/v/tag/Dr-Noob/cpufetch?label=cpufetch)
 [![GitHub Repo stars](https://img.shields.io/github/stars/Dr-Noob/cpufetch?color=4CC61F)](https://github.com/Dr-Noob/cpufetch/stargazers)
 [![GitHub issues](https://img.shields.io/github/issues/Dr-Noob/cpufetch)](https://github.com/Dr-Noob/cpufetch/issues)
 [![Packaging status](https://repology.org/badge/tiny-repos/cpufetch.svg)](https://repology.org/project/cpufetch/versions)
 [![License](https://img.shields.io/github/license/Dr-Noob/cpufetch?color=orange)](https://github.com/Dr-Noob/cpufetch/blob/master/LICENSE)
 <h4 align="center">Simple yet fancy CPU architecture fetching tool</h4>
 &nbsp;
-![cpu1](pictures/i9.png)
+<p align="center"> </p>
 <div align="center">
  <img height="22px" src="https://img.shields.io/github/v/tag/Dr-Noob/cpufetch?label=cpufetch&style=flat-square">
  <a href="https://github.com/Dr-Noob/cpufetch/stargazers">
    <img height="22px" src="https://img.shields.io/github/stars/Dr-Noob/cpufetch?color=4CC61F&style=flat-square">
  </a>
  <a href="https://github.com/Dr-Noob/cpufetch/issues">
    <img height="22px" src="https://img.shields.io/github/issues/Dr-Noob/cpufetch?style=flat-square">
  </a>
  <a href="https://github.com/Dr-Noob/cpufetch/blob/master/README.md#1-support">
    <img height="22px" src="pictures/os-shield.jpg">
  </a>
  <a href="https://github.com/Dr-Noob/cpufetch/blob/master/LICENSE">
    <img height="22px" src="https://img.shields.io/github/license/Dr-Noob/cpufetch?color=orange&style=flat-square">
  </a>
 </div>
 <p align="center"> </p>
 <p align="center">
 cpufetch is a command-line tool written in C that displays the CPU information in a clean and beautiful way
 </p>
 <p align="center">
 <img width=80% src="./pictures/examples.gif">
 </p>
 # Table of contents
 <!-- UPDATE with: doctoc --notitle README.md -->
 <!-- START doctoc generated TOC please keep comment here to allow auto update -->
@@ -24,12 +39,15 @@
 - [1. Support](#1-support)
 - [2. Installation](#2-installation)
  - [2.1 Installing from a package](#21-installing-from-a-package)
-  - [2.2 Building from source (Linux/Windows/macOS)](#22-building-from-source-linuxwindowsmacos)
+  - [2.2 Building from source](#22-building-from-source)
  - [2.3 Android](#23-android)
 - [3. Examples](#3-examples)
-  - [3.1 x86_64 CPUs](#31-x86_64-cpus)
+  - [3.1 x86_64](#31-x86_64)
-  - [3.2 ARM CPUs](#32-arm-cpus)
+  - [3.2 ARM](#32-arm)
- [4. Colors and style](#4-colors-and-style)
+  - [3.3 PowerPC](#33-powerpc)
 - [4. Colors](#4-colors)
  - [4.1 Specifying a name](#41-specifying-a-name)
  - [4.2 Specifying the colors in RGB format](#42-specifying-the-colors-in-rgb-format)
 - [5. Implementation](#5-implementation)
 - [6. Bugs or improvements](#6-bugs-or-improvements)
 - [7. Acknowledgements](#7-acknowledgements)
@@ -37,31 +55,30 @@
 <!-- END doctoc generated TOC please keep comment here to allow auto update -->
-# 1. Support
+## 1. Support
-cpufetch supports the following architectures:
+| OS          | x86_64 / x86       | ARM                | PowerPC            |
- x86 / x86_64
+|:-----------:|:------------------:|:------------------:|:------------------:|
- ARM
+| GNU / Linux | :heavy_check_mark: | :heavy_check_mark: | :heavy_check_mark: |
- PowerPC
+| Windows     | :heavy_check_mark: | :x:                | :x:                |
 | Android     | :heavy_check_mark: | :heavy_check_mark: | :x:                |
 | macOS       | :heavy_check_mark: | :heavy_check_mark: | :x:                |
 | FreeBSD     | :heavy_check_mark: | :x:                | :x:                |
-| OS        | x86_64 / x86       | ARM                | PowerPC            | Notes             |
+**NOTES:**
-|:---------:|:------------------:|:------------------:|:------------------:|:-----------------:|
+- Colors will be used in Windows only if the terminal supports it.
-| GNU/Linux | :heavy_check_mark: | :heavy_check_mark: | :heavy_check_mark: | Best support      |
+- Support in macOS ARM is limited to Apple M1 only
 | Windows   | :heavy_check_mark: | :x:                | :x:                | Some information may be missing. <br> Colors will be used if supported |
 | Android   | :heavy_check_mark: | :heavy_check_mark: | :x:                | Some information may be missing |
 | macOS     | :heavy_check_mark: | :heavy_check_mark: | :x:                | Only the Apple M1 is supported in ARM |
 | FreeBSD   | :heavy_check_mark: | :x:                | :x:                | Some information may be missing. |
-# 2. Installation
+## 2. Installation
-## 2.1 Installing from a package
+### 2.1 Installing from a package
 Choose the right package for your operating system:
 [![Packaging status](https://repology.org/badge/vertical-allrepos/cpufetch.svg)](https://repology.org/project/cpufetch/versions)
 If there is no available package for your OS, you can download the cpufetch binary from [the releases page](https://github.com/Dr-Noob/cpufetch/releases), or [build cpufetch from source](#22-building-from-source-linuxwindowsmacos) (see below).
-## 2.2 Building from source (Linux/Windows/macOS)
+### 2.2 Building from source
-You will need a C compiler (e.g, `gcc`), and `make` to compile `cpufetch`. To do so, just clone the repo and run `make`:
+You will need a C compiler (e.g, `gcc`) and `make` to compile `cpufetch`. Just clone the repo and run `make`:
 ```
 git clone https://github.com/Dr-Noob/cpufetch
@@ -70,9 +87,7 @@ make
 ./cpufetch
 ```
-The Makefile is designed to work on Linux, Windows and macOS.
+### 2.3 Android
 ## 2.3 Android
 1. Install `termux` app (terminal emulator)
 2. Run `pkg install -y git make clang` inside termux.
 3. Build from source normally:
@@ -81,45 +96,65 @@ The Makefile is designed to work on Linux, Windows and macOS.
  - make
  - ./cpufetch
-# 3. Examples
+## 3. Examples
-Here are more examples of how `cpufetch` looks on different CPUs.
+### 3.1 x86_64
-## 3.1 x86_64 CPUs
+<p align="center"><img width=90% src="pictures/epyc.png"></p>
 <p align="center">AMD EPYC HPC server</p>
 <p align="center"><img width=90% src="pictures/cascade_lake.jpg"></p>
 <p align="center">Intel Xeon HPC server</p>
-![cpu2](pictures/epyc.png)
+### 3.2 ARM
-![cpu3](pictures/cascade_lake.png)
+<p align="center">
 <img width=45% src="pictures/exynos.jpg">
 &nbsp;
 <img width=45% src="pictures/snapd.png">
 </p>
 <p align="center">Samsung Galaxy S8 (left) Xiaomi Redmi Note 7 (right)</p>
-## 3.2 ARM CPUs
+### 3.3 PowerPC
-![cpu4](pictures/exynos.png)
+<p align="center"><img width=90% src="pictures/ibm.png"></p>
 <p align="center">Talos II</p>
-![cpu5](pictures/snapdragon.png)
+## 4. Colors
 By default, `cpufetch` will print the CPU logo with the system colorscheme. However, you can set a custom color scheme in two different ways:
-# 4. Colors and style
+### 4.1 Specifying a name
-By default, `cpufetch` will print the CPU art with the system colorscheme. However, you can always set a custom color scheme, either
+
-specifying Intel or AMD, or specifying the colors in RGB format:
+ By specifying a name, cpufetch will use the specific colors of each manufacture. Valid values are:
 - intel
 - intel-new
 - amd
 - ibm
 - arm
 ```
 ./cpufetch --color intel (default color for Intel)
 ./cpufetch --color amd (default color for AMD)
 ./cpufetch --color 239,90,45:210,200,200:100,200,45:0,200,200 (example)
 ```
-In the case of setting the colors using RGB, 4 colors must be given in with the format: ``[R,G,B:R,G,B:R,G,B:R,G,B]``. These colors correspond to CPU art color (2 colors) and for the text colors (following 2). Thus, you can customize all the colors.
+### 4.2 Specifying the colors in RGB format
-# 5. Implementation
+5 colors must be given in RGB with the format: ``[R,G,B:R,G,B:R,G,B:R,G,B:R,G,B]``. These colors correspond to the CPU logo color (first 3 colors) and for the text colors (following 2).
 See [cpufetch programming documentation](https://github.com/Dr-Noob/cpufetch/doc/README.md).
-# 6. Bugs or improvements
+```
-See [cpufetch contributing guidelines](https://github.com/Dr-Noob/cpufetch/CONTRIBUTING.md)
+./cpufetch --color 239,90,45:210,200,200:0,0,0:100,200,45:0,200,200
 ```
-# 7. Acknowledgements
+## 5. Implementation
 See [cpufetch programming documentation](https://github.com/Dr-Noob/cpufetch/tree/master/doc).
 ## 6. Bugs or improvements
 See [cpufetch contributing guidelines](https://github.com/Dr-Noob/cpufetch/blob/master/CONTRIBUTING.md).
 ## 7. Acknowledgements
 Thanks to the fellow contributors and interested people in the project. Special thanks to:
 - [Gonzalocl](https://github.com/Gonzalocl), [OdnetninI](https://github.com/OdnetninI): Tested cpufetch in the earlier versions of the project in many different CPUs.
 - [Kyngo](https://github.com/Kyngo): Tested cpufetch in the Apple M1 CPU.
 - [avollmerhaus](https://github.com/avollmerhaus): Gave me ssh acess to a PowerPC machine, allowing me to develop the PowerPC port.
 - [bbonev](https://github.com/bbonev), [stephan-cr](https://github.com/stephan-cr): Reviewed the source code.
-# 8. cpufetch for GPUs (gpufetch)
+## 8. cpufetch for GPUs (gpufetch)
 See [gpufetch](https://github.com/Dr-Noob/gpufetch) project!
--- a/cpufetch.1
+++ b/cpufetch.1
@@ -1,12 +1,13 @@
 .\" DO NOT MODIFY THIS FILE!  It was generated by help2man 1.48.3. It was also manually adapted to look correctly
-.TH CPUFETCH "1" "August 2021" "cpufetch v0.99 (Linux x86_64 build)" "User Commands"
+.\" help2man -N -n "Simple yet fancy CPU architecture fetching tool" ./cpufetch > cpufetch.1
 .TH CPUFETCH "1" "September 2021" "cpufetch v1.00 (Linux x86_64 build)" "User Commands"
 .SH NAME
-cpufetch \- manual page for cpufetch v0.99 (Linux x86_64 build)
+cpufetch \- Simple yet fancy CPU architecture fetching tool
 .SH SYNOPSIS
 .B cpufetch
 [\fI\,OPTION\/\fR]...
 .SH DESCRIPTION
-Simple yet fancy CPU architecture fetching tool
+cpufetch is a command-line tool written in C that displays the CPU information in a clean and beautiful way
 .SH OPTIONS
 .TP
 \fB\-c\fR, \fB\-\-color\fR
--- a/pictures/cascade_lake.jpg
+++ b/pictures/cascade_lake.jpg
--- a/pictures/cascade_lake.png
+++ b/pictures/cascade_lake.png
--- a/pictures/epyc.png
+++ b/pictures/epyc.png
--- a/pictures/examples.gif
+++ b/pictures/examples.gif
--- a/pictures/exynos.jpg
+++ b/pictures/exynos.jpg
--- a/pictures/exynos.png
+++ b/pictures/exynos.png
--- a/pictures/i9.png
+++ b/pictures/i9.png
--- a/pictures/ibm.png
+++ b/pictures/ibm.png
--- a/pictures/os-shield.jpg
+++ b/pictures/os-shield.jpg
--- a/pictures/snapd.png
+++ b/pictures/snapd.png
--- a/src/arm/midr.c
+++ b/src/arm/midr.c
@@ -10,12 +10,6 @@
  #include <asm/hwcap.h>
 #elif defined __APPLE__ || __MACH__
  #include "sysctl.h"
  // From Linux kernel: arch/arm64/include/asm/cputype.h
  #define MIDR_APPLE_M1_ICESTORM  0x610F0220
  #define MIDR_APPLE_M1_FIRESTORM 0x610F0230
  #ifndef CPUFAMILY_ARM_FIRESTORM_ICESTORM
    #define CPUFAMILY_ARM_FIRESTORM_ICESTORM 0x1B588BB3
  #endif
 #endif
 #include "../common/global.h"
@@ -24,6 +18,10 @@
 #include "uarch.h"
 #include "soc.h"
 bool cores_are_equal(int c1pos, int c2pos, uint32_t* midr_array, int32_t* freq_array) {
  return midr_array[c1pos] == midr_array[c2pos] && freq_array[c1pos] == freq_array[c2pos];
 }
 struct cache* get_cache_info(struct cpuInfo* cpu) {
  struct cache* cach = emalloc(sizeof(struct cache));
  init_cache_struct(cach);
@@ -41,13 +39,13 @@ struct cache* get_cache_info(struct cpuInfo* cpu) {
 struct frequency* get_frequency_info(uint32_t core) {
  struct frequency* freq = emalloc(sizeof(struct frequency));
-  freq->base = UNKNOWN_FREQ;
+  freq->base = UNKNOWN_DATA;
  freq->max = get_max_freq_from_file(core);
  return freq;
 }
-struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach, uint32_t* midr_array, int socket_idx, int ncores) {
+struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach, uint32_t* midr_array, int32_t* freq_array, int socket_idx, int ncores) {
  struct topology* topo = emalloc(sizeof(struct topology));
  init_topology_struct(topo, cach);
@@ -57,7 +55,7 @@ struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach, uint
  int cores_in_socket = 0;
  while(socket_idx + 1 > sockets_seen) {
-    if(currrent_core_idx < ncores && midr_array[first_core_idx] == midr_array[currrent_core_idx]) {
+    if(currrent_core_idx < ncores && cores_are_equal(first_core_idx, currrent_core_idx, midr_array, freq_array)) {
      currrent_core_idx++;
      cores_in_socket++;
    }
@@ -77,7 +75,7 @@ int64_t get_peak_performance(struct cpuInfo* cpu) {
  //First check we have consistent data
  for(int i=0; i < cpu->num_cpus; ptr = ptr->next_cpu, i++) {
-    if(get_freq(ptr->freq) == UNKNOWN_FREQ) {
+    if(get_freq(ptr->freq) == UNKNOWN_DATA) {
      return -1;
    }
  }
@@ -93,10 +91,6 @@ int64_t get_peak_performance(struct cpuInfo* cpu) {
  return flops;
 }
 bool cores_are_equal(int c1pos, int c2pos, uint32_t* midr_array, int32_t* freq_array) {
  return midr_array[c1pos] == midr_array[c2pos] && freq_array[c1pos] == freq_array[c2pos];
 }
 uint32_t fill_ids_from_midr(uint32_t* midr_array, int32_t* freq_array, uint32_t* ids_array, int len) {
  uint32_t latest_id = 0;
  bool found;
@@ -204,7 +198,7 @@ struct cpuInfo* get_cpu_info_linux(struct cpuInfo* cpu) {
    }
    freq_array[i] = get_max_freq_from_file(i);
-    if(freq_array[i] == UNKNOWN_FREQ) {
+    if(freq_array[i] == UNKNOWN_DATA) {
      printWarn("Unable to fetch max frequency for core %d. This is probably because the core is offline", i);
      freq_array[i] = freq_array[0];
    }
@@ -231,7 +225,7 @@ struct cpuInfo* get_cpu_info_linux(struct cpuInfo* cpu) {
    ptr->feat = get_features_info();
    ptr->freq = get_frequency_info(midr_idx);
    ptr->cach = get_cache_info(ptr);
-    ptr->topo = get_topology_info(ptr, ptr->cach, midr_array, i, ncores);
+    ptr->topo = get_topology_info(ptr, ptr->cach, midr_array, freq_array, i, ncores);
  }
  cpu->num_cpus = sockets;
@@ -244,7 +238,7 @@ struct cpuInfo* get_cpu_info_linux(struct cpuInfo* cpu) {
 }
 #elif defined __APPLE__ || __MACH__
-void fill_cpu_info_firestorm_icestorm(struct cpuInfo* cpu) {
+void fill_cpu_info_firestorm_icestorm(struct cpuInfo* cpu, uint32_t pcores, uint32_t ecores) {
  // 1. Fill ICESTORM
  struct cpuInfo* ice = cpu;
@@ -254,9 +248,9 @@ void fill_cpu_info_firestorm_icestorm(struct cpuInfo* cpu) {
  ice->feat = get_features_info();
  ice->topo = malloc(sizeof(struct topology));
  ice->topo->cach = ice->cach;
-  ice->topo->total_cores = 4;
+  ice->topo->total_cores = ecores;
  ice->freq = malloc(sizeof(struct frequency));
-  ice->freq->base = UNKNOWN_FREQ;
+  ice->freq->base = UNKNOWN_DATA;
  ice->freq->max = 2064;
  ice->hv = malloc(sizeof(struct hypervisor));
  ice->hv->present = false;
@@ -270,9 +264,9 @@ void fill_cpu_info_firestorm_icestorm(struct cpuInfo* cpu) {
  fire->feat = get_features_info();
  fire->topo = malloc(sizeof(struct topology));
  fire->topo->cach = fire->cach;
-  fire->topo->total_cores = 4;
+  fire->topo->total_cores = pcores;
  fire->freq = malloc(sizeof(struct frequency));
-  fire->freq->base = UNKNOWN_FREQ;
+  fire->freq->base = UNKNOWN_DATA;
  fire->freq->max = 3200;
  fire->hv = malloc(sizeof(struct hypervisor));
  fire->hv->present = false;
@@ -286,8 +280,26 @@ struct cpuInfo* get_cpu_info_mach(struct cpuInfo* cpu) {
  // is a ARM_FIRESTORM_ICESTORM (Apple M1)
  if(cpu_family == CPUFAMILY_ARM_FIRESTORM_ICESTORM) {
    cpu->num_cpus = 2;
    // Now detect the M1 version
    uint32_t cpu_subfamily = get_sys_info_by_name("hw.cpusubfamily");
    if(cpu_subfamily == CPUSUBFAMILY_ARM_HG) {
      // Apple M1
      fill_cpu_info_firestorm_icestorm(cpu, 4, 4);
    }
    else if(cpu_subfamily == CPUSUBFAMILY_ARM_HS || cpu_subfamily == CPUSUBFAMILY_ARM_HC_HD) {
      // Apple M1 Pro/Max. Detect number of cores
      uint32_t physicalcpu = get_sys_info_by_name("hw.physicalcpu");
      if(physicalcpu < 8 || physicalcpu > 10) {
        printBug("Found invalid physicalcpu: 0x%.8X", physicalcpu);
        return NULL;
      }
      fill_cpu_info_firestorm_icestorm(cpu, physicalcpu-2, 2);
    }
    else {
      printBug("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily);
      return NULL;
    }
    cpu->soc = get_soc();
    fill_cpu_info_firestorm_icestorm(cpu);
    cpu->peak_performance = get_peak_performance(cpu);
  }
  else {
@@ -368,7 +380,7 @@ void print_debug(struct cpuInfo* cpu) {
    else {
      printf("0x%.8X ", midr);
    }
-    if(freq == UNKNOWN_FREQ) {
+    if(freq == UNKNOWN_DATA) {
      printWarn("Unable to fetch max frequency for core %d. This is probably because the core is offline", i);
      printf("%ld MHz\n", get_max_freq_from_file(0));
    }
--- a/src/arm/soc.c
+++ b/src/arm/soc.c
@@ -8,6 +8,10 @@
 #include "udev.h"
 #include "../common/global.h"
 #if defined(__APPLE__) || defined(__MACH__)
  #include "sysctl.h"
 #endif
 #define min(a,b) (((a)<(b))?(a):(b))
 #define ARRAY_SIZE(arr)     (sizeof(arr) / sizeof((arr)[0]))
@@ -17,7 +21,8 @@ static char* soc_trademark_string[] = {
  [SOC_VENDOR_EXYNOS]     = "Exynos ",
  [SOC_VENDOR_KIRIN]      = "Kirin ",
  [SOC_VENDOR_BROADCOM]   = "Broadcom BCM",
-  [SOC_VENDOR_APPLE]      = "Apple "
+  [SOC_VENDOR_APPLE]      = "Apple ",
  [SOC_VENDOR_ALLWINNER]  = "Allwinner "
 };
 static char* soc_rpi_string[] = {
@@ -38,10 +43,10 @@ void fill_soc(struct system_on_chip* soc, char* soc_name, SOC soc_model, int32_t
 }
 bool match_soc(struct system_on_chip* soc, char* raw_name, char* expected_name, char* soc_name, SOC soc_model, int32_t process) {
-  if(strlen(raw_name) > strlen(expected_name))
+  int len1 = strlen(raw_name);
-    return false;
+  int len2 = strlen(expected_name);
  int len = min(len1, len2);
  int len = strlen(raw_name);
  if(strncmp(raw_name, expected_name, len) != 0) {
    return false;
  }
@@ -197,12 +202,15 @@ bool match_exynos(char* soc_name, struct system_on_chip* soc) {
 bool match_mediatek(char* soc_name, struct system_on_chip* soc) {
  char* tmp;
  char* soc_name_upper = toupperstr(soc_name);
-  if((tmp = strstr(soc_name, "MT")) == NULL)
+  if((tmp = strstr(soc_name_upper, "MT")) == NULL)
    return false;
  SOC_START
  // Dimensity //
  SOC_EQ(tmp, "MT6893",   "Dimensity 1200",  SOC_MTK_MT6893,   soc, 6)
  SOC_EQ(tmp, "MT6891",   "Dimensity 1100",  SOC_MTK_MT6891,   soc, 6)
  SOC_EQ(tmp, "MT6889",   "Dimensity 1000",  SOC_MTK_MT6889,   soc, 7)
  SOC_EQ(tmp, "MT6885Z",  "Dimensity 1000L", SOC_MTK_MT6885Z,  soc, 7)
  //SOC_EQ(tmp, "?",      "Dimensity 700",   SOC_MTK_,         soc, 7)
@@ -447,6 +455,50 @@ bool match_qualcomm(char* soc_name, struct system_on_chip* soc) {
  SOC_EQ(tmp, "SM8250",         "865",       SOC_SNAPD_SM8250,         soc,  7)
  SOC_EQ(tmp, "SM8250-AB",      "865+",      SOC_SNAPD_SM8250_AB,      soc,  7)
  SOC_EQ(tmp, "SM8350",         "888",       SOC_SNAPD_SM8350,         soc,  5)
  SOC_EQ(tmp, "SM8350-AC",      "888+",      SOC_SNAPD_SM8350,         soc,  5)
  SOC_END
 }
 // https://linux-sunxi.org/Allwinner_SoC_Family
 bool match_allwinner(char* soc_name, struct system_on_chip* soc) {
  char* tmp;
  if((tmp = strstr(soc_name, "sun")) == NULL)
    return false;
  SOC_START
  // A series 32 bits
  SOC_EQ(tmp, "sun4i", "A10",   SOC_ALLWINNER_A10,  soc, 55)
  SOC_EQ(tmp, "sun5i", "A13",   SOC_ALLWINNER_A13,  soc, 55)
  SOC_EQ(tmp, "sun5i", "A10s",  SOC_ALLWINNER_A10S, soc, 55)
  SOC_EQ(tmp, "sun7i", "A20",   SOC_ALLWINNER_A20,  soc, 40)
  SOC_EQ(tmp, "sun8i", "A23",   SOC_ALLWINNER_A23,  soc, 40)
  SOC_EQ(tmp, "sun6i", "A31",   SOC_ALLWINNER_A31,  soc, 40)
  SOC_EQ(tmp, "sun6i", "A31s",  SOC_ALLWINNER_A31S, soc, 40)
  SOC_EQ(tmp, "sun8i", "A33",   SOC_ALLWINNER_A33,  soc, 40)
  SOC_EQ(tmp, "sun8i", "A40",   SOC_ALLWINNER_A40,  soc, 40)
  SOC_EQ(tmp, "sun8i", "A50",   SOC_ALLWINNER_A50,  soc, 28)
  SOC_EQ(tmp, "sun9i", "A80",   SOC_ALLWINNER_A80,  soc, 28)
  SOC_EQ(tmp, "sun8i", "A83T",  SOC_ALLWINNER_A83T, soc, 28)
  // H series 32 bits
  SOC_EQ(tmp, "sun8i", "H2+",   SOC_ALLWINNER_HZP,  soc, 40)
  SOC_EQ(tmp, "sun8i", "H3",    SOC_ALLWINNER_H3,   soc, 40)
  SOC_EQ(tmp, "sun8i", "H8",    SOC_ALLWINNER_H8,   soc, 28)
  // H series 64 bits
  SOC_EQ(tmp, "sun50i", "H5",   SOC_ALLWINNER_H5,   soc, 40)
  SOC_EQ(tmp, "sun50i", "H6",   SOC_ALLWINNER_H6,   soc, 28)
  SOC_EQ(tmp, "sun50i", "H616", SOC_ALLWINNER_H616, soc, 28)
  // R series 32 bits
  SOC_EQ(tmp, "sun5i", "R8",    SOC_ALLWINNER_R8,   soc, 55)
  SOC_EQ(tmp, "sun8i", "R16",   SOC_ALLWINNER_R16,  soc, 40)
  SOC_EQ(tmp, "sun8i", "R40",   SOC_ALLWINNER_R40,  soc, 40)
  SOC_EQ(tmp, "sun8i", "R58",   SOC_ALLWINNER_R58,  soc, 28)
  // R series  64 bits
  SOC_EQ(tmp, "sun50i", "R329", SOC_ALLWINNER_R328, soc, 28)
  SOC_END
 }
@@ -486,8 +538,10 @@ struct system_on_chip* parse_soc_from_string(struct system_on_chip* soc) {
  if(match_hisilicon(raw_name, soc))
    return soc;
-  match_broadcom(raw_name, soc);
+  if(match_allwinner(raw_name, soc))
    return soc;
  match_broadcom(raw_name, soc);
  return soc;
 }
@@ -498,26 +552,37 @@ static inline int android_property_get(const char* key, char* value) {
  return __system_property_get(key, value);
 }
 void try_parse_soc_from_string(struct system_on_chip* soc, int soc_len, char* soc_str) {
  soc->raw_name = emalloc(sizeof(char) * (soc_len + 1));
  strncpy(soc->raw_name, soc_str, soc_len + 1);
  soc->raw_name[soc_len] = '\0';
  soc->soc_vendor = SOC_VENDOR_UNKNOWN;
  parse_soc_from_string(soc);
 }
 struct system_on_chip* guess_soc_from_android(struct system_on_chip* soc) {
  char tmp[100];
  int property_len = 0;
  property_len = android_property_get("ro.mediatek.platform", (char *) &tmp);
  if(property_len > 0) {
-    soc->raw_name = emalloc(sizeof(char) * (property_len + 1));
+    try_parse_soc_from_string(soc, property_len, tmp);
-    strncpy(soc->raw_name, tmp, property_len + 1);
+    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.mediatek.platform: %s", tmp);
-    soc->raw_name[property_len] = '\0';
+    else return soc;
    soc->soc_vendor = SOC_VENDOR_UNKNOWN;
    return parse_soc_from_string(soc);
  }
  property_len = android_property_get("ro.product.board", (char *) &tmp);
  if(property_len > 0) {
-    soc->raw_name = emalloc(sizeof(char) * (property_len + 1));
+    try_parse_soc_from_string(soc, property_len, tmp);
-    strncpy(soc->raw_name, tmp, property_len + 1);
+    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.product.board: %s", tmp);
-    soc->raw_name[property_len] = '\0';
+    else return soc;
-    soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+  }
-    return parse_soc_from_string(soc);
+
  property_len = android_property_get("ro.board.platform", (char *) &tmp);
  if(property_len > 0) {
    try_parse_soc_from_string(soc, property_len, tmp);
    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.board.platform: %s", tmp);
    else return soc;
  }
  return soc;
@@ -581,6 +646,22 @@ struct system_on_chip* guess_soc_raspbery_pi(struct system_on_chip* soc) {
  return soc;
 }
 #if defined(__APPLE__) || defined(__MACH__)
 struct system_on_chip* guess_soc_apple(struct system_on_chip* soc) {
  uint32_t cpu_subfamily = get_sys_info_by_name("hw.cpusubfamily");
  if(cpu_subfamily == CPUSUBFAMILY_ARM_HG) {
    fill_soc(soc, "M1", SOC_APPLE_M1, 5);
  }
  else if(cpu_subfamily == CPUSUBFAMILY_ARM_HS) {
    fill_soc(soc, "M1 Pro", SOC_APPLE_M1_PRO, 5);
  }
  else if(cpu_subfamily == CPUSUBFAMILY_ARM_HC_HD) {
    fill_soc(soc, "M1 Max", SOC_APPLE_M1_MAX, 5);
  }
  return soc;
 }
 #endif
 struct system_on_chip* get_soc() {
  struct system_on_chip* soc = emalloc(sizeof(struct system_on_chip));
  soc->raw_name = NULL;
@@ -614,7 +695,13 @@ struct system_on_chip* get_soc() {
 #endif // ifdef __ANDROID__
  }
 #elif defined __APPLE__ || __MACH__
-    fill_soc(soc, "M1", SOC_APPLE_M1, 5);
+  soc = guess_soc_apple(soc);
  if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
    printWarn("SoC detection failed using cpu_subfamily");
  }
  else {
    return soc;
  }
 #endif // ifdef __linux__
  if(soc->raw_name == NULL) {
--- a/src/arm/soc.h
+++ b/src/arm/soc.h
@@ -13,7 +13,8 @@ enum {
  SOC_VENDOR_EXYNOS,
  SOC_VENDOR_KIRIN,
  SOC_VENDOR_BROADCOM,
-  SOC_VENDOR_APPLE
+  SOC_VENDOR_APPLE,
  SOC_VENDOR_ALLWINNER
 };
 struct system_on_chip {
--- a/src/arm/socs.h
+++ b/src/arm/socs.h
@@ -63,6 +63,8 @@ enum {
  SOC_EXYNOS_980,
  SOC_EXYNOS_880,
  // Mediatek //
  SOC_MTK_MT6893,
  SOC_MTK_MT6891,
  SOC_MTK_MT6889,
  SOC_MTK_MT6885Z,
  SOC_MTK_MT6853,
@@ -251,16 +253,43 @@ enum {
  SOC_SNAPD_SM8250_AB,
  SOC_SNAPD_SM8350,
  // APPLE
-  SOC_APPLE_M1
+  SOC_APPLE_M1,
  SOC_APPLE_M1_PRO,
  SOC_APPLE_M1_MAX,
  // ALLWINNER
  SOC_ALLWINNER_A10,
  SOC_ALLWINNER_A13,
  SOC_ALLWINNER_A10S,
  SOC_ALLWINNER_A20,
  SOC_ALLWINNER_A23,
  SOC_ALLWINNER_A31,
  SOC_ALLWINNER_A31S,
  SOC_ALLWINNER_A33,
  SOC_ALLWINNER_A40,
  SOC_ALLWINNER_A50,
  SOC_ALLWINNER_A80,
  SOC_ALLWINNER_A83T,
  SOC_ALLWINNER_HZP,
  SOC_ALLWINNER_H3,
  SOC_ALLWINNER_H8,
  SOC_ALLWINNER_H5,
  SOC_ALLWINNER_H6,
  SOC_ALLWINNER_H616,
  SOC_ALLWINNER_R8,
  SOC_ALLWINNER_R16,
  SOC_ALLWINNER_R40,
  SOC_ALLWINNER_R58,
  SOC_ALLWINNER_R328
 };
 inline static VENDOR get_soc_vendor_from_soc(SOC soc) {
  if(soc >= SOC_BCM_2835 && soc <= SOC_BCM_21654) return SOC_VENDOR_BROADCOM;
  else if(soc >= SOC_HISILICON_3620 && soc <= SOC_HISILICON_3690) return SOC_VENDOR_KIRIN;
  else if(soc >= SOC_EXYNOS_3475 && soc <= SOC_EXYNOS_880) return SOC_VENDOR_EXYNOS;
-  else if(soc >= SOC_MTK_MT6889 && soc <= SOC_MTK_MT8783) return SOC_VENDOR_MEDIATEK;
+  else if(soc >= SOC_MTK_MT6893 && soc <= SOC_MTK_MT8783) return SOC_VENDOR_MEDIATEK;
  else if(soc >= SOC_SNAPD_QSD8650 && soc <= SOC_SNAPD_SM8350) return SOC_VENDOR_SNAPDRAGON;
-  else if(soc >= SOC_APPLE_M1 && soc <= SOC_APPLE_M1) return SOC_VENDOR_APPLE;
+  else if(soc >= SOC_APPLE_M1 && soc <= SOC_APPLE_M1_MAX) return SOC_VENDOR_APPLE;
  else if(soc >= SOC_ALLWINNER_A10 && soc <= SOC_ALLWINNER_R328) return SOC_VENDOR_ALLWINNER;
  return SOC_VENDOR_UNKNOWN;
 }
--- a/src/arm/sysctl.h
+++ b/src/arm/sysctl.h
@@ -1,6 +1,22 @@
 #ifndef __SYSCTL__
 #define __SYSCTL__
 // From Linux kernel: arch/arm64/include/asm/cputype.h
 #define MIDR_APPLE_M1_ICESTORM  0x610F0220
 #define MIDR_APPLE_M1_FIRESTORM 0x610F0230
 #ifndef CPUFAMILY_ARM_FIRESTORM_ICESTORM
  #define CPUFAMILY_ARM_FIRESTORM_ICESTORM 0x1B588BB3
 #endif
 #ifndef CPUSUBFAMILY_ARM_HG
  #define CPUSUBFAMILY_ARM_HG 2
 #endif
 #ifndef CPUSUBFAMILY_ARM_HS
  #define CPUSUBFAMILY_ARM_HS 4
 #endif
 #ifndef CPUSUBFAMILY_ARM_HC_HD
  #define CPUSUBFAMILY_ARM_HC_HD 5
 #endif
 uint32_t get_sys_info_by_name(char* name);
 #endif
--- a/src/arm/uarch.c
+++ b/src/arm/uarch.c
@@ -64,6 +64,7 @@ enum {
  UARCH_CORTEX_A76,
  UARCH_CORTEX_A77,
  UARCH_CORTEX_A78,
  UARCH_CORTEX_X1,
  UARCH_NEOVERSE_N1,
  UARCH_NEOVERSE_E1,
  UARCH_SCORPION,
@@ -102,7 +103,9 @@ enum {
  UARCH_BRAHMA_B15,
  UARCH_BRAHMA_B53,
  UARCH_XGENE,        // Applied Micro X-Gene.
-  UARCH_TAISHAN_V110  // HiSilicon TaiShan v110 (Huawei Kunpeng 920 series processors).
+  UARCH_TAISHAN_V110, // HiSilicon TaiShan v110 (Huawei Kunpeng 920 series processors).
  // PHYTIUM
  UARCH_XIAOMI,       // Not to be confused with Xiaomi Inc
 };
 static const ISA isas_uarch[] = {
@@ -130,6 +133,7 @@ static const ISA isas_uarch[] = {
  [UARCH_CORTEX_A76]   = ISA_ARMv8_2_A,
  [UARCH_CORTEX_A77]   = ISA_ARMv8_2_A,
  [UARCH_CORTEX_A78]   = ISA_ARMv8_2_A,
  [UARCH_CORTEX_X1]    = ISA_ARMv8_2_A,
  [UARCH_NEOVERSE_N1]  = ISA_ARMv8_2_A,
  [UARCH_NEOVERSE_E1]  = ISA_ARMv8_2_A,
  [UARCH_BRAHMA_B15]   = ISA_ARMv7_A,   // Same as Cortex-A15
@@ -154,6 +158,7 @@ static const ISA isas_uarch[] = {
  [UARCH_ICESTORM]     = ISA_ARMv8_4_A,
  [UARCH_FIRESTORM]    = ISA_ARMv8_4_A,
  [UARCH_PJ4]          = ISA_ARMv7_A,
  [UARCH_XIAOMI]       = ISA_ARMv8_A,
 };
 static char* isas_string[] = {
@@ -236,6 +241,7 @@ struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu) {
  CHECK_UARCH(arch, cpu, 'A', 0xD0D, NA, NA, "Cortex-A77",            UARCH_CORTEX_A77,   CPU_VENDOR_ARM)
  CHECK_UARCH(arch, cpu, 'A', 0xD0E, NA, NA, "Cortex-A76",            UARCH_CORTEX_A76,   CPU_VENDOR_ARM)
  CHECK_UARCH(arch, cpu, 'A', 0xD41, NA, NA, "Cortex-A78",            UARCH_CORTEX_A78,   CPU_VENDOR_ARM)
  CHECK_UARCH(arch, cpu, 'A', 0xD44, NA, NA, "Cortex-X1",             UARCH_CORTEX_X1,    CPU_VENDOR_ARM)
  CHECK_UARCH(arch, cpu, 'A', 0xD4A, NA, NA, "Neoverse E1",           UARCH_NEOVERSE_E1,  CPU_VENDOR_ARM)
  CHECK_UARCH(arch, cpu, 'B', 0x00F, NA, NA, "Brahma B15",            UARCH_BRAHMA_B15,   CPU_VENDOR_BROADCOM)
@@ -286,6 +292,9 @@ struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu) {
  CHECK_UARCH(arch, cpu, 'S', 0x003, 1,  NA, "Exynos M4",             UARCH_EXYNOS_M4,    CPU_VENDOR_SAMSUNG)   // Exynos 9820
  CHECK_UARCH(arch, cpu, 'S', 0x004, 1,  NA, "Exynos M5",             UARCH_EXYNOS_M5,    CPU_VENDOR_SAMSUNG)   // Exynos 9820 (this one looks wrong at uarch.c ...)
  CHECK_UARCH(arch, cpu, 'p', 0x663, 1,  NA, "Xiaomi",                UARCH_XIAOMI,       CPU_VENDOR_PHYTIUM)   // From a fellow contributor (https://github.com/Dr-Noob/cpufetch/issues/125)
                                                                                                                // Also interesting: https://en.wikipedia.org/wiki/FeiTeng_(processor)
  CHECK_UARCH(arch, cpu, 'a', 0x022, NA, NA, "Icestorm",              UARCH_ICESTORM,     CPU_VENDOR_APPLE)
  CHECK_UARCH(arch, cpu, 'a', 0x023, NA, NA, "Firestorm",             UARCH_FIRESTORM,    CPU_VENDOR_APPLE)
--- a/src/arm/udev.c
+++ b/src/arm/udev.c
@@ -3,7 +3,6 @@
 #include "midr.h"
 #define _PATH_DEVICETREE_MODEL       "/sys/firmware/devicetree/base/model"
 #define _PATH_CPUS_PRESENT           _PATH_SYS_SYSTEM _PATH_SYS_CPU "/present"
 #define _PATH_CPUINFO                "/proc/cpuinfo"
 //#define _PATH_CPUINFO                "cpuinfo_debug"
@@ -17,48 +16,6 @@
 #define CPUINFO_CPU_STRING "processor"
 // https://www.kernel.org/doc/html/latest/core-api/cpu_hotplug.html
 int get_ncores_from_cpuinfo() {
  // Examples:
  // 0-271
  // 0-7
  // 0
  int filelen;
  char* buf;
  if((buf = read_file(_PATH_CPUS_PRESENT, &filelen)) == NULL) {
    printWarn("read_file: %s: %s\n", _PATH_CPUS_PRESENT, strerror(errno));
    return UNKNOWN;
  }
  int ncores;
  char* tmp1;
  if((tmp1 = strstr(buf, "-")) == NULL) {
    // file contains no - character, we assume that it contains 0,
    // which means that the CPU contains only one core
    return 1;
  }
  else {
    tmp1++;
  }
  char* tmp2 = strstr(buf, "\n");
  char ncores_str[filelen];
  memset(ncores_str, 0, sizeof(char) * filelen);
  memcpy(ncores_str, tmp1, tmp2-tmp1);
  char* end;
  errno = 0;
  ncores = strtol(ncores_str, &end, 10) + 1;
  if(errno != 0) {
    printWarn("strtol: %s:\n", strerror(errno));
    return UNKNOWN;
  }
  free(buf);
  return ncores;
 }
 long parse_cpuinfo_field(char* buf, char* field_str, int field_base) {
  char* tmp = strstr(buf, field_str);
  if(tmp == NULL) return -1;
--- a/src/common/args.c
+++ b/src/common/args.c
@@ -25,6 +25,7 @@ struct args_struct {
  bool debug_flag;
  bool help_flag;
  bool raw_flag;
  bool accurate_pp;
  bool full_cpu_name_flag;
  bool logo_long;
  bool logo_short;
@@ -46,6 +47,7 @@ const char args_chr[] = {
  /* [ARG_LOGO_SHORT]     = */ 2,
  /* [ARG_LOGO_INTEL_NEW] = */ 3,
  /* [ARG_LOGO_INTEL_OLD] = */ 4,
  /* [ARG_ACCURATE_PP]    = */ 5,
  /* [ARG_DEBUG]          = */ 'd',
  /* [ARG_VERBOSE]        = */ 'v',
  /* [ARG_VERSION]        = */ 'V',
@@ -61,6 +63,7 @@ const char *args_str[] = {
  /* [ARG_LOGO_SHORT]     = */ "logo-short",
  /* [ARG_LOGO_INTEL_NEW] = */ "logo-intel-new",
  /* [ARG_LOGO_INTEL_OLD] = */ "logo-intel-old",
  /* [ARG_ACCURATE_PP]    = */ "accurate-pp",
  /* [ARG_DEBUG]          = */ "debug",
  /* [ARG_VERBOSE]        = */ "verbose",
  /* [ARG_VERSION]        = */ "version",
@@ -92,6 +95,10 @@ bool show_raw() {
  return args.raw_flag;
 }
 bool accurate_pp() {
  return args.accurate_pp;
 }
 bool show_full_cpu_name() {
  return args.full_cpu_name_flag;
 }
@@ -211,12 +218,13 @@ char* build_short_options() {
  memset(str, 0, sizeof(char) * (len*2 + 1));
 #ifdef ARCH_X86
-  sprintf(str, "%c:%c:%c%c%c%c%c%c%c%c%c%c",
+  sprintf(str, "%c:%c:%c%c%c%c%c%c%c%c%c%c%c",
  c[ARG_STYLE], c[ARG_COLOR], c[ARG_HELP],
  c[ARG_RAW], c[ARG_FULLCPUNAME],
  c[ARG_LOGO_SHORT], c[ARG_LOGO_LONG],
  c[ARG_LOGO_INTEL_NEW], c[ARG_LOGO_INTEL_OLD],
-  c[ARG_DEBUG], c[ARG_VERBOSE], c[ARG_VERSION]);
+  c[ARG_ACCURATE_PP], c[ARG_DEBUG], c[ARG_VERBOSE],
  c[ARG_VERSION]);
 #else
  sprintf(str, "%c:%c:%c%c%c%c%c%c",
  c[ARG_STYLE], c[ARG_COLOR], c[ARG_HELP],
@@ -235,6 +243,7 @@ bool parse_args(int argc, char* argv[]) {
  bool color_flag = false;
  args.debug_flag = false;
  args.accurate_pp = false;
  args.full_cpu_name_flag = false;
  args.raw_flag = false;
  args.verbose_flag = false;
@@ -256,6 +265,7 @@ bool parse_args(int argc, char* argv[]) {
 #ifdef ARCH_X86
    {args_str[ARG_LOGO_INTEL_NEW], no_argument,       0, args_chr[ARG_LOGO_INTEL_NEW] },
    {args_str[ARG_LOGO_INTEL_OLD], no_argument,       0, args_chr[ARG_LOGO_INTEL_OLD] },
    {args_str[ARG_ACCURATE_PP],    no_argument,       0, args_chr[ARG_ACCURATE_PP]    },
    {args_str[ARG_FULLCPUNAME],    no_argument,       0, args_chr[ARG_FULLCPUNAME]    },
    {args_str[ARG_RAW],            no_argument,       0, args_chr[ARG_RAW]            },
 #endif
@@ -296,6 +306,9 @@ bool parse_args(int argc, char* argv[]) {
    else if(opt == args_chr[ARG_HELP]) {
      args.help_flag  = true;
    }
    else if(opt == args_chr[ARG_ACCURATE_PP]) {
       args.accurate_pp = true;
    }
    else if(opt == args_chr[ARG_FULLCPUNAME]) {
       args.full_cpu_name_flag = true;
    }
@@ -349,6 +362,13 @@ bool parse_args(int argc, char* argv[]) {
    args.logo_long = false;
  }
 #if defined(ARCH_X86) && ! defined(__linux__)
  if(args.accurate_pp) {
    printWarn("%s option is valid only in Linux x86_64", args_str[ARG_ACCURATE_PP]);
    args.help_flag  = true;
  }
 #endif
  // Leave log level untouched after returning
  set_log_level(false);
--- a/src/common/args.h
+++ b/src/common/args.h
@@ -28,6 +28,7 @@ enum {
  ARG_LOGO_SHORT,
  ARG_LOGO_INTEL_NEW,
  ARG_LOGO_INTEL_OLD,
  ARG_ACCURATE_PP,
  ARG_DEBUG,
  ARG_VERBOSE,
  ARG_VERSION
@@ -41,6 +42,7 @@ extern const char *args_str[];
 int max_arg_str_length();
 bool parse_args(int argc, char* argv[]);
 bool show_help();
 bool accurate_pp();
 bool show_full_cpu_name();
 bool show_logo_long();
 bool show_logo_short();
--- a/src/common/ascii.h
+++ b/src/common/ascii.h
@@ -218,6 +218,24 @@ $C1    kMMMMMMMMMMMMMMMMMMMMMMd    \
 $C1     'KMMMMMMMWXXWMMMMMMMk.     \
 $C1       \"cooc\"*    \"*coo'\"       "
 #define ASCII_ALLWINNER \
 "$C1                                               \
 $C1                #################              \
 $C1          .########             #####    ####  \
 $C1       ######                        #######   \
 $C1    #####.    ##             ..##     ####.    \
 $C1  .####      ####          #####     ####      \
 $C1 ####       ## ###          ###.   #####  .    \
 $C1####       ##   ## ####   .###### ####*   .    \
 $C1###       ##  ##.###  ## #### .######          \
 $C1###      #.##     ###  #####   #####    .      \
 $C1###     ###        ### .###     ###    .       \
 $C1 #### ###          ####             #.         \
 $C1   ####                          #*            \
 $C1      #####                 ##.                \
 $C1            ###########.                       \
 $C1                                               "
 // --------------------- LONG LOGOS ------------------------- //
 #define ASCII_AMD_L \
 "$C1                                                              \
@@ -317,7 +335,9 @@ asciiL logo_kirin       = { ASCII_KIRIN,       53, 12, false, {C_FG_RED},
 asciiL logo_broadcom    = { ASCII_BROADCOM,    44, 19, false, {C_FG_WHITE, C_FG_RED},             {C_FG_WHITE,   C_FG_RED}     };
 asciiL logo_arm         = { ASCII_ARM,         42,  5, false, {C_FG_CYAN},                        {C_FG_WHITE,   C_FG_CYAN}    };
 asciiL logo_ibm         = { ASCII_IBM,         42,  9, false, {C_FG_CYAN, C_FG_WHITE},            {C_FG_CYAN,    C_FG_WHITE}   };
-asciiL logo_apple       = { ASCII_APPLE,       32, 17, false, {C_FG_WHITE},                       {C_FG_B_BLACK, C_FG_B_WHITE} };
+asciiL logo_apple       = { ASCII_APPLE,       32, 17, false, {C_FG_WHITE},                       {C_FG_CYAN,    C_FG_B_WHITE} };
 asciiL logo_allwinner   = { ASCII_ALLWINNER,   47, 16, false, {C_FG_CYAN},                        {C_FG_B_BLACK, C_FG_B_CYAN } };
 // Long variants          | ----------------------------------------------------------------------------------------------------|
 asciiL logo_amd_l       = { ASCII_AMD_L,       62, 19, true,  {C_BG_WHITE, C_BG_GREEN},           {C_FG_WHITE, C_FG_GREEN}     };
 asciiL logo_intel_l     = { ASCII_INTEL_L,     62, 19, true,  {C_BG_CYAN, C_BG_WHITE},            {C_FG_CYAN,  C_FG_WHITE}     };
--- a/src/common/cpu.c
+++ b/src/common/cpu.c
@@ -150,7 +150,7 @@ char* get_str_freq(struct frequency* freq) {
  char* string = emalloc(sizeof(char)*size);
  memset(string, 0, sizeof(char)*size);
-  if(freq->max == UNKNOWN_FREQ || freq->max < 0)
+  if(freq->max == UNKNOWN_DATA || freq->max < 0)
    snprintf(string,strlen(STRING_UNKNOWN)+1,STRING_UNKNOWN);
  else if(freq->max >= 1000)
    snprintf(string,size,"%.3f "STRING_GIGAHERZ,(float)(freq->max)/1000);
--- a/src/common/cpu.h
+++ b/src/common/cpu.h
@@ -19,6 +19,7 @@ enum {
  CPU_VENDOR_HUAWUEI,
  CPU_VENDOR_SAMSUNG,
  CPU_VENDOR_MARVELL,
  CPU_VENDOR_PHYTIUM,
 // OTHERS
  CPU_VENDOR_UNKNOWN,
  CPU_VENDOR_INVALID
@@ -34,7 +35,7 @@ enum {
  HV_VENDOR_INVALID
 };
-#define UNKNOWN_FREQ -1
+#define UNKNOWN_DATA -1
 #define CPU_NAME_MAX_LENGTH 64
 typedef int32_t VENDOR;
@@ -71,8 +72,8 @@ struct topology {
  int32_t total_cores;  
  struct cache* cach;
 #if defined(ARCH_X86) || defined(ARCH_PPC)
-  uint32_t physical_cores;
+  int32_t physical_cores;
-  uint32_t logical_cores;
+  int32_t logical_cores;
  uint32_t sockets;
  uint32_t smt_supported; // Number of SMT that CPU supports (equal to smt_available if SMT is enabled)
 #ifdef ARCH_X86
--- a/src/common/global.c
+++ b/src/common/global.c
@@ -58,9 +58,9 @@ void printBug(const char *fmt, ...) {
  va_end(args);
  fprintf(stderr,RED "[ERROR]: "RESET "%s\n",buffer);
 #if defined(ARCH_X86) || defined(ARCH_PPC)
-  fprintf(stderr,"Please, create a new issue with this error message and the output of 'cpufetch --debug' on https://github.com/Dr-Noob/cpufetch/issues\n");
+  fprintf(stderr, "Please, create a new issue with this error message, the output of 'cpufetch' and 'cpufetch --debug' on https://github.com/Dr-Noob/cpufetch/issues\n");
 #elif ARCH_ARM
-  fprintf(stderr,"Please, create a new issue with this error message, your smartphone/computer model and the output of 'cpufetch --debug' on https://github.com/Dr-Noob/cpufetch/issues\n");
+  fprintf(stderr, "Please, create a new issue with this error message, your smartphone/computer model, the output of 'cpufetch --verbose' and 'cpufetch --debug' on https://github.com/Dr-Noob/cpufetch/issues\n");
 #endif
 }
@@ -111,3 +111,15 @@ void* ecalloc(size_t nmemb, size_t size) {
  return ptr;
 }
 void* erealloc(void *ptr, size_t size) {
  void* newptr = realloc(ptr, size);
  if(newptr == NULL) {
    printErr("realloc failed: %s", strerror(errno));
    exit(1);
  }
  return newptr;
 }
--- a/src/common/global.h
+++ b/src/common/global.h
@@ -15,5 +15,6 @@ int max(int a, int b);
 char *strremove(char *str, const char *sub);
 void* emalloc(size_t size);
 void* ecalloc(size_t nmemb, size_t size);
 void* erealloc(void *ptr, size_t size);
 #endif
--- a/src/common/main.c
+++ b/src/common/main.c
@@ -33,7 +33,7 @@
  static const char* OS_STR = "Unknown OS";
 #endif
-static const char* VERSION = "1.00";
+static const char* VERSION = "1.02";
 void print_help(char *argv[]) {
  const char **t = args_str;
@@ -57,6 +57,9 @@ void print_help(char *argv[]) {
  printf("      --%s %*s Show the long version of the logo\n", t[ARG_LOGO_LONG], (int) (max_len-strlen(t[ARG_LOGO_LONG])), "");
  printf("  -%c, --%s %*s Print extra information (if available) about how cpufetch tried fetching information\n", c[ARG_VERBOSE], t[ARG_VERBOSE], (int) (max_len-strlen(t[ARG_VERBOSE])), "");
 #ifdef ARCH_X86
 #ifdef __linux__
  printf("      --%s %*s Compute the peak performance accurately (measure the CPU frequency instead of using the maximum)\n", t[ARG_ACCURATE_PP], (int) (max_len-strlen(t[ARG_ACCURATE_PP])), "");
 #endif
  printf("      --%s %*s Show the old Intel logo\n", t[ARG_LOGO_INTEL_OLD], (int) (max_len-strlen(t[ARG_LOGO_INTEL_OLD])), "");
  printf("      --%s %*s Show the new Intel logo\n", t[ARG_LOGO_INTEL_NEW], (int) (max_len-strlen(t[ARG_LOGO_INTEL_NEW])), "");
  printf("  -%c, --%s %*s Show the full CPU name (do not abbreviate it)\n", c[ARG_FULLCPUNAME], t[ARG_FULLCPUNAME], (int) (max_len-strlen(t[ARG_FULLCPUNAME])), "");
@@ -133,6 +136,7 @@ int main(int argc, char* argv[]) {
    return EXIT_SUCCESS;
  }
  // TODO: This should be moved to the end of args.c
  if(show_raw()) {
  #ifdef ARCH_X86
    print_version();
--- a/src/common/printer.c
+++ b/src/common/printer.c
@@ -353,6 +353,8 @@ void choose_ascii_art(struct ascii* art, struct color** cs, struct terminal* ter
    art->art = &logo_broadcom;
  else if(art->vendor == SOC_VENDOR_APPLE)
    art->art = &logo_apple;
  else if(art->vendor == SOC_VENDOR_ALLWINNER)
    art->art = &logo_allwinner;
  else {
    art->art = choose_ascii_art_aux(&logo_arm_l, &logo_arm, term, lf);
  }
@@ -498,48 +500,62 @@ bool print_cpufetch_x86(struct cpuInfo* cpu, STYLE s, struct color** cs, struct
    return false;
  art->new_intel_logo = choose_new_intel_logo(cpu);
  // Step 1. Retrieve attributes (if some structures are NULL, like topo
  //         or cache, do not try to retrieve them)
  uint32_t socket_num = 1;
  char* l1i, *l1d, *l2, *l3, *n_cores, *n_cores_dual, *sockets;
  l1i = l1d = l2 = l3 = n_cores = n_cores_dual = sockets = NULL;
  char* uarch = get_str_uarch(cpu);
  char* manufacturing_process = get_str_process(cpu);
  char* sockets = get_str_sockets(cpu->topo);
  char* max_frequency = get_str_freq(cpu->freq);
  char* n_cores = get_str_topology(cpu, cpu->topo, false);
  char* n_cores_dual = get_str_topology(cpu, cpu->topo, true);
  char* cpu_name = get_str_cpu_name(cpu, fcpuname);
  char* avx = get_str_avx(cpu);
  char* fma = get_str_fma(cpu);
  char* l1i = get_str_l1i(cpu->cach);
  char* l1d = get_str_l1d(cpu->cach);
  char* l2 = get_str_l2(cpu->cach);
  char* l3 = get_str_l3(cpu->cach);
  char* pp = get_str_peak_performance(cpu->peak_performance);
-  setAttribute(art,ATTRIBUTE_NAME,cpu_name);
+  if(cpu->topo != NULL) {
    sockets = get_str_sockets(cpu->topo);
    n_cores = get_str_topology(cpu, cpu->topo, false);
    n_cores_dual = get_str_topology(cpu, cpu->topo, true);
  }
  if(cpu->cach != NULL) {
    l1i = get_str_l1i(cpu->cach);
    l1d = get_str_l1d(cpu->cach);
    l2 = get_str_l2(cpu->cach);
    l3 = get_str_l3(cpu->cach);
  }
  // Step 2. Set attributes
  setAttribute(art, ATTRIBUTE_NAME, cpu_name);
  if(cpu->hv->present) {
    setAttribute(art, ATTRIBUTE_HYPERVISOR, cpu->hv->hv_name);
  }
-  setAttribute(art,ATTRIBUTE_UARCH,uarch);
+  setAttribute(art, ATTRIBUTE_UARCH, uarch);
-  setAttribute(art,ATTRIBUTE_TECHNOLOGY,manufacturing_process);
+  setAttribute(art, ATTRIBUTE_TECHNOLOGY, manufacturing_process);
-  setAttribute(art,ATTRIBUTE_FREQUENCY,max_frequency);
+  setAttribute(art, ATTRIBUTE_FREQUENCY, max_frequency);
-  uint32_t socket_num = get_nsockets(cpu->topo);
+  if(cpu->topo != NULL) {
    socket_num = get_nsockets(cpu->topo);
    if (socket_num > 1) {
      setAttribute(art, ATTRIBUTE_SOCKETS, sockets);
-    setAttribute(art, ATTRIBUTE_NCORES,n_cores);
+      setAttribute(art, ATTRIBUTE_NCORES, n_cores);
      setAttribute(art, ATTRIBUTE_NCORES_DUAL, n_cores_dual);
    }
    else {
-    setAttribute(art,ATTRIBUTE_NCORES,n_cores);
+      setAttribute(art, ATTRIBUTE_NCORES, n_cores);
    }
  setAttribute(art,ATTRIBUTE_AVX,avx);
  setAttribute(art,ATTRIBUTE_FMA,fma);
  setAttribute(art,ATTRIBUTE_L1i,l1i);
  setAttribute(art,ATTRIBUTE_L1d,l1d);
  setAttribute(art,ATTRIBUTE_L2,l2);
  if(l3 != NULL) {
    setAttribute(art,ATTRIBUTE_L3,l3);
  }
-  setAttribute(art,ATTRIBUTE_PEAK,pp);
+  setAttribute(art, ATTRIBUTE_AVX, avx);
  setAttribute(art, ATTRIBUTE_FMA, fma);
  if(l1i != NULL) setAttribute(art, ATTRIBUTE_L1i, l1i);
  if(l1d != NULL) setAttribute(art, ATTRIBUTE_L1d, l1d);
  if(l2 != NULL) setAttribute(art, ATTRIBUTE_L2, l2);
  if(l3 != NULL) setAttribute(art, ATTRIBUTE_L3, l3);
  setAttribute(art, ATTRIBUTE_PEAK, pp);
  // Step 3. Print output
  const char** attribute_fields = ATTRIBUTE_FIELDS;
  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
  uint32_t longest_field = longest_field_length(art, longest_attribute);
@@ -571,8 +587,8 @@ bool print_cpufetch_x86(struct cpuInfo* cpu, STYLE s, struct color** cs, struct
  free(art);
  if(cs != NULL) free_colors_struct(cs);
-  free_cache_struct(cpu->cach);
+  if(cpu->cach != NULL) free_cache_struct(cpu->cach);
-  free_topo_struct(cpu->topo);
+  if(cpu->topo != NULL) free_topo_struct(cpu->topo);
  free_freq_struct(cpu->freq);
  free_cpuinfo_struct(cpu);
@@ -586,6 +602,7 @@ bool print_cpufetch_ppc(struct cpuInfo* cpu, STYLE s, struct color** cs, struct
  if(art == NULL)
    return false;
  // Step 1. Retrieve attributes
  char* uarch = get_str_uarch(cpu);
  char* manufacturing_process = get_str_process(cpu);
  char* sockets = get_str_sockets(cpu->topo);
@@ -601,6 +618,7 @@ bool print_cpufetch_ppc(struct cpuInfo* cpu, STYLE s, struct color** cs, struct
  char* l3 = get_str_l3(cpu->cach);
  char* pp = get_str_peak_performance(cpu->peak_performance);
  // Step 2. Set attributes
  if(cpu_name != NULL) {
    setAttribute(art,ATTRIBUTE_NAME,cpu_name);
  }
@@ -625,6 +643,7 @@ bool print_cpufetch_ppc(struct cpuInfo* cpu, STYLE s, struct color** cs, struct
  }
  setAttribute(art,ATTRIBUTE_PEAK,pp);
  // Step 3. Print output
  const char** attribute_fields = ATTRIBUTE_FIELDS;
  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
  uint32_t longest_field = longest_field_length(art, longest_attribute);
--- a/src/common/udev.c
+++ b/src/common/udev.c
@@ -2,6 +2,48 @@
 #include "global.h"
 #include "cpu.h"
 // https://www.kernel.org/doc/html/latest/core-api/cpu_hotplug.html
 int get_ncores_from_cpuinfo() {
  // Examples:
  // 0-271
  // 0-7
  // 0
  int filelen;
  char* buf;
  if((buf = read_file(_PATH_CPUS_PRESENT, &filelen)) == NULL) {
    printWarn("read_file: %s: %s\n", _PATH_CPUS_PRESENT, strerror(errno));
    return -1;
  }
  int ncores;
  char* tmp1;
  if((tmp1 = strstr(buf, "-")) == NULL) {
    // file contains no - character, we assume that it contains 0,
    // which means that the CPU contains only one core
    return 1;
  }
  else {
    tmp1++;
  }
  char* tmp2 = strstr(buf, "\n");
  char ncores_str[filelen];
  memset(ncores_str, 0, sizeof(char) * filelen);
  memcpy(ncores_str, tmp1, tmp2-tmp1);
  char* end;
  errno = 0;
  ncores = strtol(ncores_str, &end, 10) + 1;
  if(errno != 0) {
    printWarn("strtol: %s:\n", strerror(errno));
    return -1;
  }
  free(buf);
  return ncores;
 }
 char* read_file(char* path, int* len) {
  int fd = open(path, O_RDONLY);
@@ -12,13 +54,18 @@ char* read_file(char* path, int* len) {
  //File exists, read it
  int bytes_read = 0;
  int offset = 0;
-  int block = 128;
+  int block = 1024;
-  char* buf = emalloc(sizeof(char)*DEFAULT_FILE_SIZE);
+  int buf_size = block * 4;
-  memset(buf, 0, sizeof(char)*DEFAULT_FILE_SIZE);
+  char* buf = emalloc(sizeof(char) * buf_size);
-  while (  (bytes_read = read(fd, buf+offset, block)) > 0 ) {
+  while ((bytes_read = read(fd, buf+offset, block)) > 0) {
    offset += bytes_read;
    if(offset + block > buf_size) {
      buf = erealloc(buf, sizeof(char) * (buf_size + block));
      buf_size += block;
    }
  }
  buf[offset] = '\0';
  if (close(fd) == -1) {
    return NULL;
@@ -33,7 +80,7 @@ long get_freq_from_file(char* path) {
  char* buf;
  if((buf = read_file(path, &filelen)) == NULL) {
    printWarn("Could not open '%s'", path);
-    return UNKNOWN_FREQ;
+    return UNKNOWN_DATA;
  }
  char* end;
@@ -42,7 +89,7 @@ long get_freq_from_file(char* path) {
  if(errno != 0) {
    printBug("strtol: %s", strerror(errno));
    free(buf);
-    return UNKNOWN_FREQ;
+    return UNKNOWN_DATA;
  }
  // We will be getting the frequency in KHz
@@ -50,7 +97,7 @@ long get_freq_from_file(char* path) {
  // greater than 10 GHz or less than 100 MHz
  if(ret > 10000 * 1000 || ret <  100 * 1000) {
    printBug("Invalid data was read from file '%s': %ld\n", path, ret);
-    return UNKNOWN_FREQ;
+    return UNKNOWN_DATA;
  }
  free(buf);
--- a/src/common/udev.h
+++ b/src/common/udev.h
@@ -23,10 +23,10 @@
 #define _PATH_CACHE_L3          "/cache/index3"
 #define _PATH_CACHE_SIZE        "/size"
 #define _PATH_CACHE_SHARED_MAP  "/shared_cpu_map"
 #define _PATH_CPUS_PRESENT           _PATH_SYS_SYSTEM _PATH_SYS_CPU "/present"
 #define _PATH_FREQUENCY_MAX_LEN 100
 #define _PATH_CACHE_MAX_LEN     200
 #define DEFAULT_FILE_SIZE       4096
 char* read_file(char* path, int* len);
 long get_max_freq_from_file(uint32_t core);
@@ -36,5 +36,6 @@ long get_l1d_cache_size(uint32_t core);
 long get_l2_cache_size(uint32_t core);
 long get_l3_cache_size(uint32_t core);
 int get_num_caches_by_level(struct cpuInfo* cpu, uint32_t level);
 int get_ncores_from_cpuinfo();
 #endif
--- a/src/ppc/ppc.c
+++ b/src/ppc/ppc.c
@@ -139,7 +139,7 @@ int64_t get_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t
   */
  //First check we have consistent data
-  if(freq == UNKNOWN_FREQ) {
+  if(freq == UNKNOWN_DATA) {
    return -1;
  }
@@ -181,9 +181,6 @@ struct cpuInfo* get_cpu_info() {
  feat->altivec = has_altivec(cpu->arch);
  cpu->peak_performance = get_peak_performance(cpu, cpu->topo, get_freq(cpu->freq));
  if(cpu->cach == NULL || cpu->topo == NULL) {
    return NULL;
  }
  return cpu;
 }
--- a/src/x86/apic.c
+++ b/src/x86/apic.c
@@ -313,14 +313,32 @@ bool fill_apic_ids(uint32_t* apic_ids, int n, bool x2apic_id) {
    usleep(1000);
  }
 #else
  #ifdef __linux__
  // In Linux we reset the affinity; first we get the original mask
  cpu_set_t original_mask;
  if(sched_getaffinity(0, sizeof(original_mask), &original_mask) == -1) {
    printWarn("sched_getaffinity: %s", strerror(errno));
    return false;
  }
  #endif
  for(int i=0; i < n; i++) {
    if(!bind_to_cpu(i)) {
-      printErr("Failed binding to CPU %d", i);
+      printErr("Failed binding the process to CPU %d", i);
      return false;
    }
    apic_ids[i] = get_apic_id(x2apic_id);
  }
  #ifdef __linux__
  // With the original mask previosly retrieved, we reset the affinity
  if (sched_setaffinity (0, sizeof(original_mask), &original_mask) == -1) {
    printWarn("sched_setaffinity: %s", strerror(errno));
    return false;
  }
  #endif
 #endif
  return true;
 }
--- a/src/x86/cpuid.c
+++ b/src/x86/cpuid.c
@@ -15,8 +15,10 @@
 #include "cpuid.h"
 #include "cpuid_asm.h"
 #include "../common/global.h"
 #include "../common/args.h"
 #include "apic.h"
 #include "uarch.h"
 #include "freq/freq.h"
 #define CPU_VENDOR_INTEL_STRING "GenuineIntel"
 #define CPU_VENDOR_AMD_STRING   "AuthenticAMD"
@@ -174,10 +176,10 @@ struct uarch* get_cpu_uarch(struct cpuInfo* cpu) {
  uint32_t family = (eax >> 8) & 0xF;
  uint32_t efamily = (eax >> 20) & 0xFF;
-  return get_uarch_from_cpuid(cpu, efamily, family, emodel, model, (int)stepping);
+  return get_uarch_from_cpuid(cpu, eax, efamily, family, emodel, model, (int)stepping);
 }
-int64_t get_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t freq) {
+int64_t get_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t max_freq, bool accurate_pp) {
  /*
   * PP = PeakPerformance
   * SP = SinglePrecision
@@ -190,8 +192,20 @@ int64_t get_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t
   * 16(If AVX512), 8(If AVX), 4(If SSE) *
   */
  int64_t freq;
 #ifdef __linux__
  if(accurate_pp)
    freq = measure_frequency(cpu);
  else
    freq = max_freq;
 #else
  // Silence compiler warning
  (void)(accurate_pp);
  freq = max_freq;
 #endif
  //First, check we have consistent data
-  if(freq == UNKNOWN_FREQ) {
+  if(freq == UNKNOWN_DATA || topo->logical_cores == UNKNOWN_DATA) {
    return -1;
  }
@@ -264,6 +278,9 @@ struct cpuInfo* get_cpu_info() {
  struct cpuInfo* cpu = emalloc(sizeof(struct cpuInfo));
  struct features* feat = emalloc(sizeof(struct features));
  cpu->feat = feat;
  cpu->peak_performance = -1;
  cpu->topo = NULL;
  cpu->cach = NULL;
  bool *ptr = &(feat->AES);
  for(uint32_t i = 0; i < sizeof(struct features)/sizeof(bool); i++, ptr++) {
@@ -372,15 +389,20 @@ struct cpuInfo* get_cpu_info() {
    cpu->topology_extensions = (ecx >> 22) & 1;
  }
  // If any field of the struct is NULL,
  // return inmideately, as further functions
  // require valid fields (cach, topo, etc)
  cpu->arch = get_cpu_uarch(cpu);
  cpu->freq = get_frequency_info(cpu);
  cpu->cach = get_cache_info(cpu);
  cpu->topo = get_topology_info(cpu, cpu->cach);
  cpu->peak_performance = get_peak_performance(cpu, cpu->topo, get_freq(cpu->freq));
-  if(cpu->cach == NULL || cpu->topo == NULL) {
+  cpu->cach = get_cache_info(cpu);
-    return NULL;
+  if(cpu->cach == NULL) return cpu;
-  }
+
  cpu->topo = get_topology_info(cpu, cpu->cach);
  if(cpu->topo == NULL) return cpu;
  cpu->peak_performance = get_peak_performance(cpu, cpu->topo, get_freq(cpu->freq), accurate_pp());
  return cpu;
 }
@@ -458,6 +480,16 @@ bool get_cache_topology_amd(struct cpuInfo* cpu, struct topology* topo) {
  return true;
 }
 void get_topology_from_udev(struct topology* topo) {
  // TODO: To be improved in the future
  topo->total_cores = get_ncores_from_cpuinfo();
  topo->logical_cores = topo->total_cores;
  topo->physical_cores = topo->total_cores;
  topo->smt_available = 1;
  topo->smt_supported = 1;
  topo->sockets = 1;
 }
 // Main reference: https://software.intel.com/content/www/us/en/develop/articles/intel-64-architecture-processor-topology-enumeration.html
 // Very interesting resource: https://wiki.osdev.org/Detecting_CPU_Topology_(80x86)
 struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach) {
@@ -487,7 +519,19 @@ struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach) {
  switch(cpu->cpu_vendor) {
    case CPU_VENDOR_INTEL:
      if (cpu->maxLevels >= 0x00000004) {
-        get_topology_from_apic(cpu, topo);
+        bool toporet = get_topology_from_apic(cpu, topo);
        if(!toporet) {
          #ifdef __linux__
            printWarn("Failed to retrieve topology from APIC, using udev...\n");
            get_topology_from_udev(topo);
          #else
            printErr("Failed to retrieve topology from APIC, assumming default values...\n");
            topo->logical_cores = UNKNOWN_DATA;
            topo->physical_cores = UNKNOWN_DATA;
            topo->smt_available = 1;
            topo->smt_supported = 1;
          #endif
        }
      }
      else {
        printWarn("Can't read topology information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x00000001, cpu->maxLevels);
@@ -698,16 +742,16 @@ struct frequency* get_frequency_info(struct cpuInfo* cpu) {
  if(cpu->maxLevels < 0x00000016) {
    #if defined (_WIN32) || defined (__APPLE__)
      printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x00000016, cpu->maxLevels);
-      freq->base = UNKNOWN_FREQ;
+      freq->base = UNKNOWN_DATA;
-      freq->max = UNKNOWN_FREQ;
+      freq->max = UNKNOWN_DATA;
    #else
      printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X). Using udev", 0x00000016, cpu->maxLevels);
-      freq->base = UNKNOWN_FREQ;
+      freq->base = UNKNOWN_DATA;
      freq->max = get_max_freq_from_file(0);
      if(freq->max == 0) {
        printWarn("Read max CPU frequency from udev and got 0 MHz");
-        freq->max = UNKNOWN_FREQ;
+        freq->max = UNKNOWN_DATA;
      }
    #endif
  }
@@ -724,7 +768,7 @@ struct frequency* get_frequency_info(struct cpuInfo* cpu) {
    if(freq->base == 0) {
      printWarn("Read base CPU frequency from CPUID and got 0 MHz");
-      freq->base = UNKNOWN_FREQ;
+      freq->base = UNKNOWN_DATA;
    }
    if(freq->max == 0) {
      printWarn("Read max CPU frequency from CPUID and got 0 MHz");
@@ -734,10 +778,10 @@ struct frequency* get_frequency_info(struct cpuInfo* cpu) {
        if(freq->max == 0) {
          printWarn("Read max CPU frequency from udev and got 0 MHz");
-          freq->max = UNKNOWN_FREQ;
+          freq->max = UNKNOWN_DATA;
        }
      #else
-        freq->max = UNKNOWN_FREQ;
+        freq->max = UNKNOWN_DATA;
      #endif
    }
  }
@@ -759,7 +803,11 @@ char* get_str_topology(struct cpuInfo* cpu, struct topology* topo, bool dual_soc
  int topo_sockets = dual_socket ? topo->sockets : 1;
  char* string;
-  if(topo->smt_supported > 1) {
+  if(topo->logical_cores == UNKNOWN_DATA) {
    string = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN) + 1));
    strcpy(string, STRING_UNKNOWN);
  }
  else if(topo->smt_supported > 1) {
    // 4 for digits, 21 for ' cores (SMT disabled)' which is the longest possible output
    uint32_t max_size = 4+21+1;
    string = emalloc(sizeof(char) * max_size);
--- a/src/x86/freq/freq.c
+++ b/src/x86/freq/freq.c
@@ -0,0 +1,146 @@
 #define  _GNU_SOURCE
 #include <stdio.h>
 #include "../../common/global.h"
 #include "../uarch.h"
 #include "freq.h"
 #include "freq_nov.h"
 #include "freq_avx.h"
 #include "freq_avx512.h"
 #include <immintrin.h>
 #include <stdlib.h>
 #include <stdbool.h>
 #include <sys/time.h>
 #include <time.h>
 #include <errno.h>
 #include <string.h>
 #include <pthread.h>
 #define MAX_NUMBER_THREADS         512
 #define FREQ_VECTOR_SIZE         1<<16
 struct freq_thread {
  bool end;
  bool measure;
  double freq;
 };
 double vector_average_harmonic(double* v, int len) {
  double acc = 0.0;
  for(int i=0; i < len; i++) {
    acc += 1 / v[i];
  }
  return len / acc;
 }
 void sleep_ms(int64_t ms) {
  struct timespec ts;
  ts.tv_sec = ms / 1000;
  ts.tv_nsec = (ms % 1000) * 1000000;
  nanosleep(&ts, &ts);
 }
 void* measure_freq(void *freq_ptr) {
  struct freq_thread* freq = (struct freq_thread*) freq_ptr;
  char* end = NULL;
  char* line = NULL;
  size_t len = 0;
  ssize_t read;
  int v = 0;
  double* freq_vector = malloc(sizeof(double) * FREQ_VECTOR_SIZE);
  while(!freq->end) {
    if(!freq->measure) continue;
    FILE* fp = fopen("/proc/cpuinfo", "r");
    if(fp == NULL) return NULL;
    while ((read = getline(&line, &len, fp)) != -1) {
      if((line = strstr(line, "cpu MHz")) != NULL) {
        line = strstr(line, "\t: ");
        if(line == NULL) return NULL;
        line += sizeof("\t: ") - 1;
        double f = strtold(line, &end);
        if(errno != 0) {
          printf("strtol: %s", strerror(errno));
          return NULL;
        }
        freq_vector[v] = f;
        v++;
      }
    }
    fclose(fp);
    sleep_ms(500);
  }
  freq->freq = vector_average_harmonic(freq_vector, v);
  printWarn("AVX2 measured freq=%f\n", freq->freq);
  return NULL;
 }
 int64_t measure_frequency(struct cpuInfo* cpu) {
  int ret;
  int num_spaces;
  struct freq_thread* freq_struct = malloc(sizeof(struct freq_thread));
  freq_struct->end = false;
  freq_struct->measure = false;
  void* (*compute_function)(void*);
  if(cpu->feat->AVX512 && vpus_are_AVX512(cpu)) {
    printf("cpufetch is measuring the AVX512 frequency...");
    compute_function = compute_avx512;
    num_spaces = 45;
  }
  else if(cpu->feat->AVX || cpu->feat->AVX2) {
    printf("cpufetch is measuring the AVX frequency...");
    compute_function = compute_avx;
    num_spaces = 42;
  }
  else {
    printf("cpufetch is measuring the frequency (no vector instructions)...");
    compute_function = compute_nov;
    num_spaces = 63;
  }
  fflush(stdout);
  pthread_t freq_t;
  if(pthread_create(&freq_t, NULL, measure_freq, freq_struct)) {
    fprintf(stderr, "Error creating thread\n");
    return -1;
  }
  pthread_t* compute_th = malloc(sizeof(pthread_t) * cpu->topo->total_cores);
  for(int i=0; i < cpu->topo->total_cores; i++) {
    ret = pthread_create(&compute_th[i], NULL, compute_function, NULL);
    if(ret != 0) {
      fprintf(stderr, "Error creating thread\n");
      return -1;
    }
  }
  sleep_ms(500);
  freq_struct->measure = true;
  for(int i=0; i < cpu->topo->total_cores; i++) {
    if(pthread_join(compute_th[i], NULL)) {
      fprintf(stderr, "Error joining thread\n");
      return -1;
    }
    freq_struct->end = true;
  }
  if(pthread_join(freq_t, NULL)) {
    fprintf(stderr, "Error joining thread\n");
    return -1;
  }
  printf("\r%*c", num_spaces, ' ');
  return freq_struct->freq;
 }
--- a/src/x86/freq/freq.h
+++ b/src/x86/freq/freq.h
@@ -0,0 +1,12 @@
 #ifndef __FREQ__
 #define __FREQ__
 #include <stdint.h>
 #include "../../common/cpu.h"
 #define MEASURE_TIME_SECONDS         5
 #define LOOP_ITERS           100000000
 int64_t measure_frequency(struct cpuInfo* cpu);
 #endif
--- a/src/x86/freq/freq_avx.c
+++ b/src/x86/freq/freq_avx.c
@@ -0,0 +1,56 @@
 #include <stdio.h>
 #include <immintrin.h>
 #include <stdlib.h>
 #include <stdbool.h>
 #include <sys/time.h>
 #include <time.h>
 #include <errno.h>
 #include <string.h>
 #include <pthread.h>
 #include <stdint.h>
 #include "freq.h"
 void* compute_avx() {
  bool end = false;
  struct timeval begin, now;
  __m256 a[8];
  __m256 b[8];
  for(int i=0; i < 8; i++) {
    a[i] = _mm256_set1_ps(1.5);
    b[i] = _mm256_set1_ps(1.2);
  }
  gettimeofday(&begin, NULL);
  while(!end) {
    for(uint64_t i=0; i < LOOP_ITERS; i++) {
      a[0] = _mm256_add_ps(a[0], b[0]);
      a[1] = _mm256_add_ps(a[1], b[1]);
      a[2] = _mm256_add_ps(a[2], b[2]);
      a[3] = _mm256_add_ps(a[3], b[3]);
      a[4] = _mm256_add_ps(a[4], b[4]);
      a[5] = _mm256_add_ps(a[5], b[5]);
      a[6] = _mm256_add_ps(a[6], b[6]);
      a[7] = _mm256_add_ps(a[7], b[7]);
    }
    gettimeofday(&now, NULL);
    double elapsed = (now.tv_sec - begin.tv_sec) + ((now.tv_usec - begin.tv_usec)/1000000.0);
    end = elapsed >= (double) MEASURE_TIME_SECONDS;
  }
  FILE* fp = fopen("/dev/null", "w");
  if(fp == NULL) {
    printf("fopen: %s", strerror(errno));
  }
  else {
    for(int i=0; i < 8; i++)
      fprintf(fp, "%f", a[i][0]);
    fclose(fp);
  }
  return NULL;
 }
--- a/src/x86/freq/freq_avx.h
+++ b/src/x86/freq/freq_avx.h
@@ -0,0 +1,6 @@
 #ifndef __FREQ_AVX__
 #define __FREQ_AVX__
 void* compute_avx();
 #endif
--- a/src/x86/freq/freq_avx512.c
+++ b/src/x86/freq/freq_avx512.c
@@ -0,0 +1,56 @@
 #include <stdio.h>
 #include <immintrin.h>
 #include <stdlib.h>
 #include <stdbool.h>
 #include <sys/time.h>
 #include <time.h>
 #include <errno.h>
 #include <string.h>
 #include <pthread.h>
 #include <stdint.h>
 #include "freq.h"
 void* compute_avx512() {
  bool end = false;
  struct timeval begin, now;
  __m512 a[8];
  __m512 b[8];
  for(int i=0; i < 8; i++) {
    a[i] = _mm512_set1_ps(1.5);
    b[i] = _mm512_set1_ps(1.2);
  }
  gettimeofday(&begin, NULL);
  while(!end) {
    for(uint64_t i=0; i < LOOP_ITERS; i++) {
      a[0] = _mm512_add_ps(a[0], b[0]);
      a[1] = _mm512_add_ps(a[1], b[1]);
      a[2] = _mm512_add_ps(a[2], b[2]);
      a[3] = _mm512_add_ps(a[3], b[3]);
      a[4] = _mm512_add_ps(a[4], b[4]);
      a[5] = _mm512_add_ps(a[5], b[5]);
      a[6] = _mm512_add_ps(a[6], b[6]);
      a[7] = _mm512_add_ps(a[7], b[7]);
    }
    gettimeofday(&now, NULL);
    double elapsed = (now.tv_sec - begin.tv_sec) + ((now.tv_usec - begin.tv_usec)/1000000.0);
    end = elapsed >= (double) MEASURE_TIME_SECONDS;
  }
  FILE* fp = fopen("/dev/null", "w");
  if(fp == NULL) {
    printf("fopen: %s", strerror(errno));
  }
  else {
    for(int i=0; i < 8; i++)
      fprintf(fp, "%f", a[i][0]);
    fclose(fp);
  }
  return NULL;
 }
--- a/src/x86/freq/freq_avx512.h
+++ b/src/x86/freq/freq_avx512.h
@@ -0,0 +1,6 @@
 #ifndef __FREQ_AVX512__
 #define __FREQ_AVX512__
 void* compute_avx512();
 #endif
--- a/src/x86/freq/freq_nov.c
+++ b/src/x86/freq/freq_nov.c
@@ -0,0 +1,44 @@
 #include <stdio.h>
 #include <immintrin.h>
 #include <stdlib.h>
 #include <stdbool.h>
 #include <sys/time.h>
 #include <time.h>
 #include <errno.h>
 #include <string.h>
 #include <pthread.h>
 #include <stdint.h>
 #include "freq.h"
 void* compute_nov() {
  bool end = false;
  struct timeval begin, now;
  float a = 1.5;
  float b = 1.2;
  float c = 0.0;
  gettimeofday(&begin, NULL);
  while(!end) {
    for(uint64_t i=0; i < LOOP_ITERS; i++) {
      c = a * b;
    }
    gettimeofday(&now, NULL);
    double elapsed = (now.tv_sec - begin.tv_sec) + ((now.tv_usec - begin.tv_usec)/1000000.0);
    end = elapsed >= (double) MEASURE_TIME_SECONDS;
  }
  FILE* fp = fopen("/dev/null", "w");
  if(fp == NULL) {
    printf("fopen: %s", strerror(errno));
  }
  else {
    fprintf(fp, "%f", c);
    fclose(fp);
  }
  return NULL;
 }
--- a/src/x86/freq/freq_nov.h
+++ b/src/x86/freq/freq_nov.h
@@ -0,0 +1,6 @@
 #ifndef __FREQ_NO_VECTOR__
 #define __FREQ_NO_VECTOR__
 void* compute_nov();
 #endif
--- a/src/x86/uarch.c
+++ b/src/x86/uarch.c
@@ -78,7 +78,7 @@ enum {
  UARCH_SUNNY_COVE,
  UARCH_GOLDMONT_PLUS,
  UARCH_TREMONT,
-  UARCH_WILLOW_COVE,
+  UARCH_LAKEMONT,
  UARCH_COFFE_LAKE,
  UARCH_ITANIUM,
  UARCH_KNIGHTS_FERRY,
@@ -89,6 +89,8 @@ enum {
  UARCH_CEDAR_MILL,
  UARCH_ITANIUM2,
  UARCH_ICE_LAKE,
  UARCH_TIGER_LAKE,
  UARCH_ALDER_LAKE,
  // AMD //
  UARCH_AM486,
  UARCH_AM5X86,
@@ -147,7 +149,9 @@ struct uarch* get_uarch_from_cpuid_intel(uint32_t ef, uint32_t f, uint32_t em, u
  CHECK_UARCH(arch, 0,  5,  0,  4, NA, "P5 MMX",          UARCH_P5,              UNK)
  CHECK_UARCH(arch, 0,  5,  0,  7, NA, "P5 MMX",          UARCH_P5,              UNK)
  CHECK_UARCH(arch, 0,  5,  0,  8, NA, "P5 MMX",          UARCH_P5,              250)
  CHECK_UARCH(arch, 0,  5,  0,  9,  0, "Lakemont",        UARCH_LAKEMONT,         32)
  CHECK_UARCH(arch, 0,  5,  0,  9, NA, "P5 MMX",          UARCH_P5,              UNK)
  CHECK_UARCH(arch, 0,  5,  0, 10,  0, "Lakemont",        UARCH_LAKEMONT,         32)
  CHECK_UARCH(arch, 0,  6,  0,  0, NA, "P6 Pentium II",   UARCH_P6,              UNK)
  CHECK_UARCH(arch, 0,  6,  0,  1, NA, "P6 Pentium II",   UARCH_P6,              UNK) // process depends on core
  CHECK_UARCH(arch, 0,  6,  0,  2, NA, "P6 Pentium II",   UARCH_P6,              UNK)
@@ -218,13 +222,15 @@ struct uarch* get_uarch_from_cpuid_intel(uint32_t ef, uint32_t f, uint32_t em, u
  CHECK_UARCH(arch, 0,  6,  8,  5, NA, "Knights Mill",    UARCH_KNIGHTS_MILL,     14) // no spec update; only MSR_CPUID_table* so far
  CHECK_UARCH(arch, 0,  6,  8,  6, NA, "Tremont",         UARCH_TREMONT,          10) // LX*
  CHECK_UARCH(arch, 0,  6,  8, 10, NA, "Tremont",         UARCH_TREMONT,          10) // no spec update; only geekbench.com example
-  CHECK_UARCH(arch, 0,  6,  8, 12, NA, "Willow Cove",     UARCH_WILLOW_COVE,      10) // found only on en.wikichip.org
+  CHECK_UARCH(arch, 0,  6,  8, 12, NA, "Tiger Lake",      UARCH_TIGER_LAKE,       10) // instlatx64
-  CHECK_UARCH(arch, 0,  6,  8, 13, NA, "Willow Cove",     UARCH_WILLOW_COVE,      10) // LX*
+  CHECK_UARCH(arch, 0,  6,  8, 13, NA, "Tiger Lake",      UARCH_TIGER_LAKE,       10) // instlatx64
-  CHECK_UARCH(arch, 0,  6,  8, 14,  9, "Amber Lake",      UARCH_AMBER_LAKE,       14) // wikichip
+  // CHECK_UARCH(arch, 0,  6,  8, 14,  9, ...) It is not possible to determine uarch only from CPUID dump (can be Kaby Lake or Amber Lake)
  CHECK_UARCH(arch, 0,  6,  8, 14, 10, "Kaby Lake",       UARCH_KABY_LAKE,        14) // wikichip
  CHECK_UARCH(arch, 0,  6,  8, 14, 11, "Whiskey Lake",    UARCH_WHISKEY_LAKE,     14) // wikichip
  CHECK_UARCH(arch, 0,  6,  8, 14, 12, "Comet Lake",      UARCH_COMET_LAKE,       14) // wikichip
  CHECK_UARCH(arch, 0,  6,  9,  6, NA, "Tremont",         UARCH_TREMONT,          10) // LX*
  CHECK_UARCH(arch, 0,  6,  9,  7, NA, "Alder Lake",      UARCH_ALDER_LAKE,       10) // wikichip
  CHECK_UARCH(arch, 0,  6,  9, 10, NA, "Tremont",         UARCH_TREMONT,          10) // instlatx64
  CHECK_UARCH(arch, 0,  6,  9, 12, NA, "Tremont",         UARCH_TREMONT,          10) // LX*
  CHECK_UARCH(arch, 0,  6,  9, 13, NA, "Sunny Cove",      UARCH_SUNNY_COVE,       10) // LX*
  CHECK_UARCH(arch, 0,  6,  9, 14,  9, "Kaby Lake",       UARCH_KABY_LAKE,        14)
@@ -270,6 +276,7 @@ struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uin
  CHECK_UARCH(arch,  0,  4, NA, NA, NA, "Am5x86",      UARCH_AM5X86,     UNK)
  CHECK_UARCH(arch,  0,  5,  0,  6, NA, "K6",          UARCH_K6,         300)
  CHECK_UARCH(arch,  0,  5,  0,  7, NA, "K6",          UARCH_K6,         250) // *p from sandpile.org
  CHECK_UARCH(arch,  0,  5,  0, 10, NA, "K7",          UARCH_K7,         130) // Geode NX
  CHECK_UARCH(arch,  0,  5,  0, 13, NA, "K6",          UARCH_K6,          80) // *p from sandpile.org
  CHECK_UARCH(arch,  0,  5, NA, NA, NA, "K6",          UARCH_K6,         UNK)
  CHECK_UARCH(arch,  0,  6,  0,  1, NA, "K7",          UARCH_K7,         250)
@@ -325,7 +332,7 @@ struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uin
  CHECK_UARCH(arch,  2, 15, NA, NA, NA, "Puma 2008",   UARCH_PUMA_2008,   65)
  CHECK_UARCH(arch,  3, 15, NA, NA, NA, "K10",         UARCH_K10,         32)
  CHECK_UARCH(arch,  5, 15, NA, NA, NA, "Bobcat",      UARCH_BOBCAT,      40)
-  CHECK_UARCH(arch,  6, 15,  0,  0, NA, "Bulldozer",   UARCH_BULLDOZER,   32) // iNAtlatx64 engr sample
+  CHECK_UARCH(arch,  6, 15,  0,  0, NA, "Bulldozer",   UARCH_BULLDOZER,   32) // instlatx64 engr sample
  CHECK_UARCH(arch,  6, 15,  0,  1, NA, "Bulldozer",   UARCH_BULLDOZER,   32)
  CHECK_UARCH(arch,  6, 15,  0,  2, NA, "Piledriver",  UARCH_PILEDRIVER,  32)
  CHECK_UARCH(arch,  6, 15,  1,  0, NA, "Piledriver",  UARCH_PILEDRIVER,  32)
@@ -333,20 +340,25 @@ struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uin
  CHECK_UARCH(arch,  6, 15,  3,  0, NA, "Steamroller", UARCH_STEAMROLLER, 28)
  CHECK_UARCH(arch,  6, 15,  3,  8, NA, "Steamroller", UARCH_STEAMROLLER, 28)
  CHECK_UARCH(arch,  6, 15,  4,  0, NA, "Steamroller", UARCH_STEAMROLLER, 28) // Software Optimization Guide (15h) says it has the same iNAt latencies as (6,15),(3,x).
-  CHECK_UARCH(arch,  6, 15,  6,  0, NA, "Excavator",   UARCH_EXCAVATOR,   28) // undocumented, but iNAtlatx64 samples
+  CHECK_UARCH(arch,  6, 15,  6,  0, NA, "Excavator",   UARCH_EXCAVATOR,   28) // undocumented, but instlatx64 samples
  CHECK_UARCH(arch,  6, 15,  6,  5, NA, "Excavator",   UARCH_EXCAVATOR,   28) // undocumented, but sample from Alexandros Couloumbis
  CHECK_UARCH(arch,  6, 15,  7,  0, NA, "Excavator",   UARCH_EXCAVATOR,   28)
  CHECK_UARCH(arch,  7, 15,  0,  0, NA, "Jaguar",      UARCH_JAGUAR,      28)
  CHECK_UARCH(arch,  7, 15,  2,  6, NA, "Jaguar",      UARCH_JAGUAR,      28) // AMD Cato (Xbox One?)
  CHECK_UARCH(arch,  7, 15,  3,  0, NA, "Puma 2014",   UARCH_PUMA_2014,   28)
-  CHECK_UARCH(arch,  8, 15,  0,  0, NA, "Zen",         UARCH_ZEN,         14) // iNAtlatx64 engr sample
+  CHECK_UARCH(arch,  8, 15,  0,  0, NA, "Zen",         UARCH_ZEN,         14) // instlatx64 engr sample
  CHECK_UARCH(arch,  8, 15,  0,  1, NA, "Zen",         UARCH_ZEN,         14)
  CHECK_UARCH(arch,  8, 15,  0,  8, NA, "Zen+",        UARCH_ZEN_PLUS,    12)
-  CHECK_UARCH(arch,  8, 15,  1,  1, NA, "Zen",         UARCH_ZEN,         14) // found only on en.wikichip.org & iNAtlatx64 examples
+  CHECK_UARCH(arch,  8, 15,  1,  1, NA, "Zen",         UARCH_ZEN,         14) // found only on en.wikichip.org & instlatx64 examples
  CHECK_UARCH(arch,  8, 15,  1,  8, NA, "Zen+",        UARCH_ZEN_PLUS,    12) // found only on en.wikichip.org
  CHECK_UARCH(arch,  8, 15,  2,  0, NA, "Zen",         UARCH_ZEN,         14) // Dali, found on instlatx64 and en.wikichip.org
  CHECK_UARCH(arch,  8, 15,  3,  1, NA, "Zen 2",       UARCH_ZEN2,         7) // found only on en.wikichip.org
  CHECK_UARCH(arch,  8, 15,  4,  7, NA, "Zen 2",       UARCH_ZEN2,         7) // instlatx64 example (AMD 4700S)
  CHECK_UARCH(arch,  8, 15,  5,  0, NA, "Zen",         UARCH_ZEN,         14) // instlatx64 example (Subor Z+)
  CHECK_UARCH(arch,  8, 15,  6,  0, NA, "Zen 2",       UARCH_ZEN2,         7) // undocumented, geekbench.com example
  CHECK_UARCH(arch,  8, 15,  6,  8, NA, "Zen 2",       UARCH_ZEN2,         7) // found on instlatx64
  CHECK_UARCH(arch,  8, 15,  7,  1, NA, "Zen 2",       UARCH_ZEN2,         7) // samples from Steven Noonan and instlatx64
  CHECK_UARCH(arch, 10, 15,  0,  1, NA, "Zen 3",       UARCH_ZEN3,         7) // instlatx64
  CHECK_UARCH(arch, 10, 15,  2,  1, NA, "Zen 3",       UARCH_ZEN3,         7) // instlatx64
  CHECK_UARCH(arch, 10, 15,  5,  0, NA, "Zen 3",       UARCH_ZEN3,         7) // instlatx64
  UARCH_END
@@ -354,15 +366,29 @@ struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uin
  return arch;
 }
-struct uarch* get_uarch_from_cpuid(struct cpuInfo* cpu, uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s) {
+struct uarch* get_uarch_from_cpuid(struct cpuInfo* cpu, uint32_t dump, uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s) {
-  if(cpu->cpu_vendor == CPU_VENDOR_INTEL)
+  if(cpu->cpu_vendor == CPU_VENDOR_INTEL) {
    if(dump == 0x000806E9) {
      // It is not possible to determine uarch only from CPUID dump (can be Kaby Lake or Amber Lake)
      struct uarch* arch = emalloc(sizeof(struct uarch));
      if(strstr(cpu->cpu_name, "Y") != NULL) {
        fill_uarch(arch, "Amber Lake", UARCH_AMBER_LAKE, 14);
      }
      else {
        fill_uarch(arch, "Kaby Lake", UARCH_KABY_LAKE, 14);
      }
      return arch;
    }
    return get_uarch_from_cpuid_intel(ef, f, em, m, s);
  }
  else
    return get_uarch_from_cpuid_amd(ef, f, em, m, s);
 }
 bool vpus_are_AVX512(struct cpuInfo* cpu) {
-  return cpu->arch->uarch != UARCH_ICE_LAKE;
+  return cpu->arch->uarch != UARCH_ICE_LAKE && cpu->arch->uarch != UARCH_TIGER_LAKE;
 }
 bool is_knights_landing(struct cpuInfo* cpu) {
@@ -389,6 +415,7 @@ int get_number_of_vpus(struct cpuInfo* cpu) {
      case UARCH_KNIGHTS_MILL:
      case UARCH_ICE_LAKE:
      case UARCH_TIGER_LAKE:
      // AMD
      case UARCH_ZEN2:
@@ -401,8 +428,9 @@ int get_number_of_vpus(struct cpuInfo* cpu) {
 bool choose_new_intel_logo_uarch(struct cpuInfo* cpu) {
  switch(cpu->arch->uarch) {
    case UARCH_ALDER_LAKE:
    case UARCH_ROCKET_LAKE:
-    // TODO: case UARCH_TIGER_LAKE: missing?
+    case UARCH_TIGER_LAKE:
      return true;
    default:
      return false;
--- a/src/x86/uarch.h
+++ b/src/x86/uarch.h
@@ -7,7 +7,7 @@
 struct uarch;
-struct uarch* get_uarch_from_cpuid(struct cpuInfo* cpu, uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s);
+struct uarch* get_uarch_from_cpuid(struct cpuInfo* cpu, uint32_t dump, uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s);
 bool vpus_are_AVX512(struct cpuInfo* cpu);
 bool is_knights_landing(struct cpuInfo* cpu);
 int get_number_of_vpus(struct cpuInfo* cpu);
Author	SHA1	Message	Date
Dr-Noob	0f1c2881d9	[v1.02] Bump version	2022-04-24 11:42:32 +01:00
Dr-Noob	3a628e22ba	[v1.01] Merge bugfix2 branch	2022-04-24 11:42:06 +01:00
Dr-Noob	07d1e565e1	[v1.01] Merge bugfix branch	2022-04-24 11:41:46 +01:00
Dr-Noob	0ea0754727	[v1.01] Experimental M1 chip detection using hw.cpusubfamily	2022-03-06 10:40:05 +01:00
Dr-Noob	316c2dec40	[v1.01] Improve read_file implementation as suggested in #137	2022-02-10 22:27:51 +01:00
Dr-Noob	c4b2f31320	[v1.01] Read file in udev by dynamically reallocating a buffer, instead of allocating a fixed size. Should fix issue #137	2022-02-09 22:16:13 +01:00
Dr-Noob	fed0dce706	[v1.01] Add Alder Lake uarch detection	2022-01-25 20:15:07 +01:00
Dr-Noob	3046e84b4b	[v1.01] Fix dummy compilation issue	2021-12-28 16:03:16 +01:00
Dr-Noob	874a856e34	[v1.01] Run multiple independent instructions in the pipeline for AVX freq too. Fixes incorrect frequency measures under certain CPUs	2021-12-27 12:42:36 +01:00
Dr-Noob	a4e1a837a3	[v1.01] New license	2021-12-25 11:16:18 +01:00
Dr-Noob	40b13bc60c	[v1.01] Refactoring in printer to make code clearer. Remove usless check in PPC	2021-12-08 10:35:38 +01:00
Dr-Noob	84ee3107c6	[v1.01][X86] Merge bugfix2 branch	2021-12-08 10:22:02 +01:00
Dr-Noob	33bf081c0a	[v1.01][ARM] Merge changes from feat2 (added Allwinner CPUs)	2021-12-07 13:29:26 +01:00
Dr-Noob	0db9f1f5c2	[v1.01] Add more x86 archs to Makefile	2021-12-06 22:36:12 +01:00
Dr-Noob	4d8f108222	[v1.01] Change apple text color (as suggested by #129 )	2021-12-04 09:08:02 +01:00
Dr-Noob	4229e2c63b	[v1.01][X86] Do not assume that cach and topo structures are non-NULL, which may easily happen in VMs. Add protection against NULL fields in cpu structure	2021-12-03 23:15:23 +01:00
Dr-Noob	a53fc41041	[v1.01] Added Allwinner SoCs (thanks #130!). Changed the match_soc algorithm; it should be more general now	2021-12-03 16:14:42 +01:00
Dr-Noob	4a9bbef086	[v1.01] Fix compiler warning	2021-11-20 10:27:34 +01:00
Dr-Noob	fe3bc6163c	[v1.01] Do not use FMA for frequency measurement. It is sufficient to run any other AVX instructions, and some CPUs support AVX but not FMA.	2021-11-20 10:25:36 +01:00
Dr-Noob	4b50740516	[v1.01] Remove useless frequency measurement (SSE and novector should report the same frequency!). Increase iterations to improve precision	2021-11-20 10:13:35 +01:00
Dr-Noob	2fce2c9f52	[v1.00] Fix freq measurement for AVX512	2021-11-20 10:11:22 +01:00
Dr-Noob	617fd2a520	[v1.00] Implemented all backends for --accurate-pp	2021-11-19 22:01:29 +01:00
Dr-Noob	7226adb04d	[v1.00] Skeleton for future support for other vector instructions in --accurate-pp	2021-11-19 21:36:55 +01:00
Dr-Noob	a5b321a966	[v1.00][X86] Retrieve topology from udev when APIC fails (like #119 )	2021-11-01 13:55:49 +01:00
Dr-Noob	6981d61eaf	[v1.00][X86] Show unknown string when the number of cores cannot be retrieved (like #119 )	2021-11-01 13:07:48 +01:00
Dr-Noob	a426f231c6	[v1.00] Add preeliminary support for Phytium chip	2021-10-31 20:19:37 +01:00
Dr-Noob	7692a3cd49	[v1.00] Merge latest commits from master branch	2021-10-31 20:19:21 +01:00
Dr-Noob	bb12a2c276	[v1.00] Fix ambiguity in uarch detection with 0x806E9; it may be Amber/Kaby Lake (thanks to #122 for pointing this out!). We can differentiate by CPU name (hacky, but is there a better way?)	2021-10-07 22:37:29 +02:00
Dr-Noob	432b2d7c56	[v1.00] Temporary rename new Intel CPU uarch names	2021-09-25 22:42:26 +02:00
Dr-Noob	3928a9e3b6	[v1.00] Ice Lake is NOT a uarch; Sunny Cove is. But we need to check for codename in these cases since with the uarch is not enough to determine the number of VPUs	2021-09-25 22:03:22 +02:00
Dr-Noob	9f29023362	[v1.00][ARM] Fix typo in soc.c	2021-09-18 15:32:08 +02:00
Dr-Noob	40380a2f50	[v1.00][ARM] Add board.platform property detection. Try to match the SoC name until it founds a valid one in SoC detection, instead of checking only the first property found	2021-09-18 15:28:33 +02:00
Dr-Noob	b97b43cec7	[v1.00][ARM] Add new Dimensity 1100/1200 SoCs. Allow for non-upercase mtk SoC detection	2021-09-18 13:45:32 +02:00
Dr-Noob	b9988622f2	[v1.00][ARM] Always consider two cores equals using the same criteria: if MIDR and freq are the same	2021-09-18 13:13:24 +02:00
Dr-Noob	2cdc31392a	[v1.00] Add --accurate-pp option (Linux x86_64) only. Needs more work to make it stable (add support for non-AVX, AVX512, etc)	2021-09-16 15:13:26 +02:00
Dr-Noob	3b7a122956	[v1.00] Reset affinity in Linux after querying topology	2021-09-16 13:01:50 +02:00
Dr-Noob	c2b0213b9f	[v1.00] Update and slightly improve man page as suggested by #118	2021-09-13 22:49:10 +02:00
Dr-Noob	3641391bd8	[v1.00] Clarify what should be posted when a bug occurs	2021-08-31 10:06:09 +02:00
Dr-Noob	0350d116bd	[v1.00] Add missing uarchs from instlatx64	2021-08-31 10:02:39 +02:00
Dr-Noob	23055483c4	[v1.00] Fix broken links in README as noted by #114	2021-08-30 23:11:18 +02:00
Dr-Noob	bf75716054	[v1.00][ARM] Add Cortex X1 and Snapd 888+ in ARM detection	2021-08-29 09:53:16 +02:00
Dr-Noob	dd324537ee	[v1.00] Significantly improve README	2021-08-23 20:48:41 +02:00
Dr-Noob	a6714dabc7	[0.97] Do not count "L4" cache when computing the max cache level	2021-04-30 22:57:15 +02:00