I9 cpuid: KB4090007: Intel microcode updates

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Below is a list of Intel’s CPUID broken down by their respective core names and microarchitecture:

1 CPUIDs
- 1.1 Family 15
- 1.2 Family 11
- 1.3 Family 6
  - 1.3.1 Big Cores (Client)
  - 1.3.2 Big Cores (Server)
  - 1.3.3 Small Cores
  - 1.3.4 MIC Architecture
- 1.4 Family 5
- 1.5 Family 4
- 1.6 Family 3

Family 15[edit]

Microarchitecture	Core	Family	Extended Model	Model
Netburst		0xF	0x0	0x6	Family 15 Model 6
	Prescott	0xF	0x0	0x4	Family 15 Model 4
	Prescott	0xF	0x0	0x3	Family 15 Model 3
	Northwood	0xF	0x0	0x2	Family 15 Model 2
	Willamette	0xF	0x0	0x1	Family 15 Model 1

Family 11[edit]

Microarchitecture	Core	Extended Family	Family	Extended Model	Model
Knights Ferry		0	0xB	0x0	0x0	Family 11 Model 0
Knights Corner		0	0xB	0x0	0x1	Family 11 Model 1

Family 6[edit]

Big Cores (Client)[edit]

Intel’s client big cores refers to Intel mainstream SoCs that ship in most tablets, laptops, and desktop devices.

Microarchitecture	Core	Extended Family	Family	Extended Model	Model
Meteor Lake
Raptor Lake	S	0	0x6	0xB	0x7	Family 6 Model 183
Alder Lake	S	0	0x6	0x9	0x7	Family 6 Model 151
Alder Lake	P	0	0x6	0x9	0xA	Family 6 Model 154
Rocket Lake	S	0	0x6	0xA	0x7	Family 6 Model 167
Tiger Lake	H	0	0x6	0x8	0xD	Family 6 Model 141
Tiger Lake	U	0	0x6	0x8	0xC	Family 6 Model 140
Ice Lake (Client)	U	0	0x6	0x7	0xE	Family 6 Model 126
Ice Lake (Client)	Y	0	0x6	0x7	0xD	Family 6 Model 125
Comet Lake	S, H	0	0x6	0xA	0x5	Family 6 Model 165
Comet Lake	U	0	0x6	0x8	0xE	Family 6 Model 142
Amber Lake	Y
Whiskey Lake	U
Cannon Lake	U	0	0x6	0x6	0x6	Family 6 Model 102
Coffee Lake	S, H, E	0	0x6	0x9	0xE	Family 6 Model 158
Coffee Lake	U	0	0x6	0x8	0xE	Family 6 Model 142
Kaby Lake	DT, H, S, X	0	0x6	0x9	0xE	Family 6 Model 158
Kaby Lake	Y, U	0	0x6	0x8	0xE	Family 6 Model 142
Skylake (Client)	DT, H, S	0	0x6	0x5	0xE	Family 6 Model 94
Skylake (Client)	Y, U	0	0x6	0x4	0xE	Family 6 Model 78
Broadwell (Client)	C, W	0	0x6	0x4	0x7	Family 6 Model 71
	U, Y, S	0	0x6	0x3	0xD	Family 6 Model 61
	H	0	0x6	0x4	0x7	Family 6 Model 71
Haswell (Client)	GT3E	0	0x6	0x4	0x6	Family 6 Model 70
	ULT	0	0x6	0x4	0x5	Family 6 Model 69
	S	0	0x6	0x3	0xC	Family 6 Model 60
Ivy Bridge (Client)	M, H, Gladden	0	0x6	0x3	0xA	Family 6 Model 58
Sandy Bridge (Client)	M, H, Celeron	0	0x6	0x2	0xA	Family 6 Model 42
Westmere (Client)	Arrandale, Clarkdale	0	0x6	0x2	0x5	Family 6 Model 37
Nehalem (Client)	~~Auburndale~~, ~~Havendale~~	0	0x6	0x1	0xF	Family 6 Model 31
Nehalem (Client)	Clarksfield	0	0x6	0x1	0xE	Family 6 Model 30
Penryn (Client)	Penryn, Wolfdale, Yorkfield	0	0x6	0x1	0x7	Family 6 Model 23
Core (Client)	Merom L	0	0x6	0x1	0x6	Family 6 Model 22
Core (Client)	Merom	0	0x6	0x0	0xF	Family 6 Model 15
Modified Pentium M	Yonah	0	0x6	0x0	0xE	Family 6 Model 14
Pentium M	Tolapai	0	0x6	0x1	0x5	Family 6 Model 21
	Dothan	0	0x6	0x0	0xD	Family 6 Model 13
	Banias	0	0x6	0x0	0x9	Family 6 Model 9
P6	Tualatin	0	0x6	0x0	0xB	Family 6 Model 11
	Coppermine, Coppermine T	0	0x6	0x0	0x8	Family 6 Model 8
	Katmai	0	0x6	0x0	0x7	Family 6 Model 7
		0	0x6	0x0	0x6	Family 6 Model 6
		0	0x6	0x0	0x5	Family 6 Model 5
		0	0x6	0x0	0x3	Family 6 Model 3
		0	0x6	0x0	0x1	Family 6 Model 1

Big Cores (Server)[edit]

Intel’s server big cores refers to Intel workstation and data center SoCs that ship in most enterprise desktops, workstations, and servers.

Microarchitecture	Core	Extended Family	Family	Extended Model	Model
Diamond Rapids
Granite Rapids
Sapphire Rapids	?	0	0x6	0x8	0xF	Family 6 Model 143
Ice Lake (Server)	DE	0	0x6	0x6	0xC	Family 6 Model 108
Ice Lake (Server)	SP	0	0x6	0x6	0xA	Family 6 Model 106
Cooper Lake	?	0	0x6	0x5	0x5	Family 6 Model 85
Cascade Lake	SP, X, W
Skylake (Server)	SP, X, DE, W
Broadwell (Server)	E, EP, EX	0	0x6	0x4	0xF	Family 6 Model 79
Broadwell (Server)	DE, Hewitt Lake	0	0x6	0x5	0x6	Family 6 Model 86
Haswell (Server)	E, EP, EX	0	0x6	0x3	0xF	Family 6 Model 63
Ivy Bridge (Server)	E, EN, EP, EX	0	0x6	0x3	0xE	Family 6 Model 62
Sandy Bridge (Server)	E, EN, EP	0	0x6	0x2	0xD	Family 6 Model 45
Westmere (Server)	Gulftown, EP	0	0x6	0x2	0xC	Family 6 Model 44
Westmere (Server)	EX	0	0x6	0x2	0xF	Family 6 Model 47
Nehalem (Server)	EX	0	0x6	0x2	0xE	Family 6 Model 46
	Lynnfield	0	0x6	0x1	0xE	Family 6 Model 30
	Bloomfield, EP, WS	0	0x6	0x1	0xA	Family 6 Model 26
Penryn (Server)	Dunnington	0	0x6	0x1	0xD	Family 6 Model 29
Penryn (Server)	Harpertown, QC, Wolfdale, Yorkfield	0	0x6	0x1	0x7	Family 6 Model 23
P6		0	0x6	0x0	0xA	Family 6 Model 10

Small Cores[edit]

Intel’s client small cores refers to Intel low-power SoCs that ship in low power laptops, tablets, embedded devices, and low-power servers.

Microarchitecture	Core	Family	Extended Model	Model
Tremont	Jasper Lake	0x6	0x9	0xC	Family 6 Model 156
	Elkhart Lake	0x6	0x9	0x6	Family 6 Model 150
	Lakefield	0x6	0x8	0xA	Family 6 Model 138
Goldmont Plus	Gemini Lake	0x6	0x7	0xA	Family 6 Model 122
Goldmont	Denverton	0x6	0x5	0xF	Family 6 Model 95
Goldmont	Apollo Lake, ~~Broxton~~	0x6	0x5	0xC	Family 6 Model 92
Airmont	Cherry Trail, Braswell	0x6	0x4	0xC	Family 6 Model 76
Silvermont	SoFIA	0x6	0x5	0xD	Family 6 Model 93
	Anniedale	0x6	0x5	0xA	Family 6 Model 90
	Avoton, Rangeley	0x6	0x4	0xD	Family 6 Model 77
	Tangier	0x6	0x4	0xA	Family 6 Model 74
	Bay Trail	0x6	0x3	0x7	Family 6 Model 55
Saltwell	Cedarview	0x6	0x3	0x6	Family 6 Model 54
	Cloverview	0x6	0x3	0x5	Family 6 Model 53
	Penwell	0x6	0x2	0x7	Family 6 Model 39
Bonnell	Lincroft	0x6	0x2	0x6	Family 6 Model 38
Bonnell	Silverthorne, Diamondville, Pineview	0x6	0x1	0xC	Family 6 Model 28

MIC Architecture[edit]

Microarchitecture	Core	Extended Family	Family	Extended Model	Model
Knights Mill		0	0x6	0x8	0x5	Family 6 Model 133
Knights Landing		0	0x6	0x5	0x7	Family 6 Model 87

Family 5[edit]

Microarchitecture	Core	Family	Extended Model	Model
Lakemont	Quark	0x5	0x0	0xA	Family 5 Model 10
Lakemont	Quark	0x5	0x0	0x9	Family 5 Model 9
P5	P55C (Mobile)	0x5	0x0	0x8	Family 5 Model 8
	P55C (Mobile)	0x5	0x0	0x7	Family 5 Model 7
	P55C	0x5	0x0	0x4	Family 5 Model 4
	P54CS	0x5	0x0	0x2	Family 5 Model 2
	P5, P54, P54CQS	0x5	0x0	0x1	Family 5 Model 1

Family 4[edit]

Microarchitecture	Core	Family	Extended Model	Model
80486		0x4	0x0	0x9	Family 4 Model 9
	80486DX4	0x4	0x0	0x8	Family 4 Model 8
		0x4	0x0	0x7	Family 4 Model 7
		0x4	0x0	0x5	Family 4 Model 5
	80486SL	0x4	0x0	0x4	Family 4 Model 4
	80486DX2	0x4	0x0	0x3	Family 4 Model 3
	80486SX	0x4	0x0	0x2	Family 4 Model 2
	80486DX	0x4	0x0	0x1	Family 4 Model 1

Family 3[edit]

80386

Fix System hang up when run Prime95 with i9-1.

..” : Bugs : thermald package : Ubuntu

Bug #1989047 reported by
koba
on 2022-09-08

This bug affects 1 person

Affects		Status	Importance	Assigned to	Milestone
	thermald (Ubuntu)	Fix Released	Undecided	Unassigned
	Jammy	New	Undecided	Unassigned

Bug Description

[Impact]
* System hang up when run Prime95 10~15 minutes
[Test Plan]
1. Find a unit with i9-12900k CPU and liquid cooling
2. Connect to Internet and install below tools
>sudo apt update
>sudo apt install stress-ng
>sudo apt install s-tui
>sudo systemctl stop thermald
>sudo thermald —no-daemon —loglevel=debug —adaptive —ignore-cpuid-check > thermald_log.txt &
download prime95 linux version: p95v308b15.linux64.tar.gz and decompress
4. Stress test: (you may need to open multiple terminals for the test)
>./mprime #decompressed from p95*.tar.gz
>sudo stress-ng -a 0 —class cpu,cpu-cache —ignite-cpu -v
5. monitor cpu temperature for 6 hours if you didn’t hit overheat and shutdown issue.
>sudo s-tui -c

[Where problems could occur]
* it install Passive Policy as default and use PL1 max/min from PPCC, there may be some edge cases that don’t handle well.

Tags:

patch
originate-from-1982073
somerville

koba (kobako)
wrote
on 2022-09-08):

Ubuntu Foundations Team Bug Bot (crichton)
wrote
on 2022-09-08:

Timo Aaltonen (tjaalton)
wrote
on 2022-09-08:

The latest Intel Core i9 processor consumes electricity like a Soviet iron

Technique

20 October 2021 17:45 20 Oct 2021 17:45

Overclocker was able to overclock the top-end Intel Core i9-12900K chip to 5. 2 GHz with a base value of 3.2 GHz. This more than doubled its power consumption to 330 watts.

Electricity Guzzler

The flagship Intel Core i9-12900K processor can consume up to 330W of power, according to WCCFTech. This is the CPU of the new Alder Lake line, which Intel is going to launch at the end of October 2021. In terms of power consumption, the chip is almost equal to the 400-watt Kharkiv UT-400 iron from the times of the USSR.

Such a huge consumption is not typical for the Intel Core i9-12900K, despite the fact that this is the most productive chip in the entire line. And, nevertheless, when assembling a computer on it, you will have to spend money on a powerful power supply.

The new Intel flagship owes its very solid appetite to the Chinese overclocker with the pseudonym Enthusiast Citizen . He managed to overclock the processor to a frequency of 5.2 GHz from the base 3. 2 GHz, which caused a jump in energy consumption.

Intel’s new flagship chip. Engineering Sample

In this case, only high-performance processor cores, known as Golden Cove, were overclocked. The overclocker did not touch the energy-efficient Gracemont cores, but during the measurements they worked at the peak of their factory capabilities — at a frequency of 3.7 GHz.

Enthusiast Citizen did not specify where he got the processor, which is not yet commercially available, and also what computer configuration he assembled to conduct his experiment. There is no information about the motherboard (Alder Lake needs brand new motherboards with an LGA1700 socket), nor about the type and amount of RAM, nor, most importantly, about the cooling system and power supply.

Purpose of experiment

The only thing Enthusiast Citizen wanted to test was how much the performance of the most advanced Intel desktop processor in existence would increase. He ran tests in CPU-Z and found that when overclocking all eight Colder Cove cores, the gain in single-core mode is only 3%. In multi-core mode, this figure is 5%, which casts doubt on the need for such overclocking at home.

Iron «Kharkov UT 400» is only slightly ahead of the new Intel CPU in terms of power consumption

On the other hand, the overclocked Core i9-12900K turned out to be 32% faster than its main competitor, the AMD Ryzen 9 5950X, but only in single-core mode. The multi-core test showed that the AMD flagship is only 2% behind the overclocking Core i9-12900K.

At the same time, overclocking the Core i9-12900K led to an increase in energy consumption by 2.64 times (nominal — 125 W). The overclocking itself was carried out by raising the voltage on the chip to 1.385 V.

Test results

In single-core mode, the new Intel flagship received 851 points after overclocking. In multi-threaded, his result was almost 12 thousand points. Without overclocking, its performance is 827 and 11.456 thousand, respectively.

Test results in single-core (top) and multi-core modes

Meanwhile, the AMD Ryzen 9 5950X scored 648 on the single-core test. In multi-core mode, without any overclocking, he was able to knock out 11.856 thousand points.

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IT industry support

It follows that without overclocking, the new Core i9-12900K, which at the time of publication of the material had not yet even gone on sale, is inferior to the Ryzen 9 5950X, released in September 2020. It is not yet clear whether the new Intel can oppose anything to last year’s flagship AMD in other benchmarks.

Intel 9 APUs0019

For Intel, the entire line of Alder Lake is very significant. These are the first processors in its history, made in the image and likeness of modern ARM chips. They now also have clusters with different cores than all the company’s previous CPUs, including Tiger Lake (11th generation Core, September 2020), cannot boast.

According to WCCFTech, the top Core i9-12900K will receive 16 cores (8 Golden Cove and Gracemont each). Only the first will support HyperThreading technology, as a result of which the processor will be able to process up to 24 instruction streams per unit of time.

Branded packaging for new

processors

The processor will receive a total of 30 MB cache in the third level (L3). 24 MB will go to the Golden Cove cluster, and 3 MB each will go to both Gracemont clusters. Also available is 12.5 MB of cache in the second level (L2).

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Safety

Five sub-series will fill the entire Alder Lake line. S-series are processors for high-performance desktop PCs, it includes Core i9-12900K. Alder Lake-P chips are built for high performance laptops. Processors with the letter M in the name are designed for low-power devices, and the L-series will replace the Intel Atom processors. The fifth series called Alder Lake-N is designed for all other devices — nettops and entry-level laptops, Chromebooks, Chromeboxes, etc.

For the first time, Alder Lake became known at the very beginning of 2021. Thus, it took almost a whole year for Intel to prepare these processors for release. We also add that many popular video games may not run on computers with Alder Lake.

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Intel Core i9 — Processors

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753.00
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/ PCS.

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Processor Intel Intel® Core™ i9-12900K BOX, 3.2GHz, LGA 1700, 30MB

Processor socket type:
LGA 1700

CPU frequency:
3. 2 GHz

Number of processor cores:
16

Buffer memory (Cache):
30 MB

Integrated graphics card:
Yes

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396.00
€
/ PCS.

In stock

Processor Intel Intel® Core™ i9-11900F Processor 2.50GHz 16 MB BOX, 2.5GHz, LGA 1200, 16MB

Processor socket type:
LGA 1200

CPU frequency:
2.5 GHz

Number of processor cores:
8

Buffer memory (Cache):
16 MB

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439.00
€
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Processor Intel Intel® Core™ i9-11900K Processor 3.50GHz 16 MB BOX, 3.5GHz, LGA 1200, 16MB

Processor socket type:
LGA 1200

CPU frequency:
3. 5 GHz

Number of processor cores:
8

Buffer memory (Cache):
16 MB

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589.00
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Processor Intel Intel Core i9-12900KF, 3.20GHz, LGA 1700, 30MB

Processor socket type:
LGA 1700

CPU frequency:
3.20 GHz

Number of processor cores:
16

Buffer memory (Cache):
30 MB

Integrated graphics card:
No

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749.00
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Processor Intel Intel® Core™ i9-12900KS BOX, 3.40GHz, LGA 1700, 30MB

Processor socket type:
LGA 1700

CPU frequency:
3.40 GHz

Number of processor cores:
16

Buffer memory (Cache):
30 MB

Integrated graphics card:
Yes

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649. 00
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Intel® Core™ i9 processor-12900F BOX, 2.40GHz, LGA 1700, 30MB

Processor socket type:
LGA 1700

CPU frequency:
2.40 GHz

Number of processor cores:
16

Buffer memory (Cache):
30 MB

Integrated graphics card:
No

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399.00
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Processor Intel Intel® Core™ i9-11900 Processor 2.50 GHz 16 MB BOX, 2.5GHz, LGA 1200, 16MB

Processor socket type:
LGA 1200

CPU frequency:
2.5 GHz

Number of processor cores:
8

Buffer memory (Cache):
16 MB

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389.00
€
/ PCS.

Processor Intel Intel® Core™ i9-11900KF, 3.50GHz, LGA 1200, 16MB

Processor socket type:
LGA 1200

CPU frequency:
3.50 GHz

Number of processor cores:
8

Buffer memory (Cache):
16 MB

Integrated graphics card:
No

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629.00
€
/ PCS.

Processor Intel Intel® Core™ i9-12900 BOX, 2.40GHz, LGA 1700, 30MB

Processor socket type:
LGA 1700

CPU frequency:
2.40 GHz

Number of processor cores:
16

Buffer memory (Cache):
30 MB

Integrated graphics card:
Yes

Delivery

Pickup

589.