Tejas and Jayhawk

Tejas was a code name for Intel's microprocessor which was to be a successor to the latest Pentium 4 with the Prescott core. Jayhawk was a code name for its Xeon counterpart. The cancellation of the processors in May 2004 underscored Intel's historical transition of its focus on single-core processors to multi-core processors.

In early 2003, Intel showed the design of Tejas and a plan to release it sometime in 2004, but put it off to 2005 later. Intel, however, announced it canceled the development on May 7, 2004. Analysts attribute the delay and eventual cancellation to the heat problems due to the extreme power consumption of the core, as that was the case in development of Prescott and its mediocre performance increase over Northwood. This cancellation reflected Intel's intention to focus on dual-core chips for the Itanium platform. With respect to desktop processors, Intel's development efforts shifted to the Pentium M microarchitecture (itself a derivative of the P6 microarchitecture) used in the Centrino notebook platform, which offered a processing power to power consumption ratio considerably higher than that offered by Prescott and other NetBurst based designs. The outcome of these development efforts was the Intel Core processor line, and later the Intel Core 2 line, providing and building on the benefits of Pentium M and offering Intel's first native dual core products for desktops and laptops.

This transition marks the end of the NetBurst line of CPU development from Intel that started back with the original Pentium 4.

Design and microarchitecture

Tejas and Jayhawk were to make several improvements on the Pentium 4's NetBurst microarchitecture. Tejas was to originally be built on a 90 nm process, later moving to a 65 nm process. The 90 nm version of the processor was reported to have 1 MB L2 cache, while the 65 nm chip would increase the cache to 2 MB. There was also to be a dual core version of Tejas called Cedarmill (or Cedar Mill depending on the source). This Cedarmill should not be confused with the 65 nm Cedar Mill-based Pentium 4, which appears to be what the codename was recycled for. The trace cache capacity would likely have been increased, and the number of pipeline stages was increased to between 40 and 50 stages.^[1] There would have been an improved version of Hyper-Threading, as well as a new version of SSE, which was later backported to the Intel Core 2 series after Tejas's cancellation and named SSSE3. Tejas was slated to operate at frequencies of 7 GHz^[2] or higher. However, it's likely that Tejas wouldn't have had linear performance scaling, as it would on average have executed fewer instructions per clock cycle due to more pipeline bubbles from branch mispredicts and data cache misses. Also, it would have run hotter as well with a TDP much higher than the Prescott core of Pentium 4. The CPU was cancelled late in its development after it had reached its tapeout phase.^[1]

Early samples of 90 nm Tejas running at 2.8 GHz were rated for 150w TDP on the LGA 775 socket,^[3] a notable increase over single core 90 nm Prescott (Pentium 4 521, 2.8 GHz, 84w TDP)^[4] and higher than 90 nm dual core Smithfield (Pentium D 820, 2.8 GHz, 95w TDP).^[5] In contrast, 65 nm Core 2 Duo processors based on the Core microarchitecture had a maximum of 65w TDP (E6850, 3.00 GHz)^[6] while being much more efficient with markedly higher performance per clock. This defined the end for the Netburst architecture, with Core setting the foundation and path for power efficient architectures that followed along the Tick-Tock model.

References

1 2 Chip magicians at work: patching at 45nm
↑ Dutton, Paul. "Pentium V will launch with 64-bit Windows Elements". The Inquirer. Retrieved 31 March 2013.
↑ Shimpi, Anand Lal. "Covert Ops in Taiwan - Intel Tejas & Socket 775 Unveiled". Retrieved 2016-12-01.
↑ "Intel® Pentium® 4 Processor 521 supporting HT Technology (1M Cache, 2.80 GHz, 800 MHz FSB) Specifications". Intel® ARK (Product Specs). Retrieved 2016-12-01.
↑ "Intel® Pentium® D Processor 820 (2M Cache, 2.80 GHz, 800 MHz FSB) Specifications". Intel® ARK (Product Specs). Retrieved 2016-12-01.
↑ "Intel® Core™2 Duo Processor E6850 (4M Cache, 3.00 GHz, 1333 MHz FSB) Specifications". Intel® ARK (Product Specs). Retrieved 2016-12-01.

General

Intel CPU core roadmaps from NetBurst and P6 to Tigerlake

Atom (ULV)		Feature size	x86
		600 nm	P6	Pentium Pro (133 MHz)
		500 nm		Pentium Pro (150 MHz)
		350 nm		Pentium Pro (166–200 MHz)
				Klamath
		250 nm		Deschutes
				Katmai		NetBurst
		180 nm		Coppermine		Willamette
		130 nm		Tualatin		Northwood
				Banias				NetBurst(HT)		NetBurst(×2)
		90 nm		Dothan		Prescott	⇨	Prescott‑2M	⇨	Smithfield
						Tejas	→	⇩	→	Cedarmill (Tejas)
		65 nm		Yonah		Nehalem (NetBurst)		Cedar Mill	⇨	Presler
			Core	Merom
Bonnell	Bonnell	45 nm		Penryn
			Nehalem	Nehalem
	Saltwell	32 nm		Westmere
			Sandy Bridge	Sandy Bridge
Silvermont	Silvermont	22 nm		Ivy Bridge
			Haswell	Haswell
	Airmont	14 nm		Broadwell
Goldmont	Goldmont		Skylake	Skylake
				Kaby Lake	⇨	Coffee Lake
		10 nm		Cannonlake
			Icelake	Icelake
				Tigerlake

Italic names indicate canceled processors
Bold names are the microarchitecture names
Bold italic names are future processors

Intel processors

Discontinued

BCD oriented (4-bit)	4004 (1971) 4040 (1974)

pre-x86 (8-bit)	8008 (1972) 8080 (1974) 8085 (1977)

Early x86 (16-bit)	8086 (1978) 8088 (1979) 80186 (1982) 80188 (1982) 80286 (1982)

x87 (external FPUs)	8/16-bit databus 8087 (1980) 16-bit databus 80187 80287 80387SX 32-bit databus 80387DX 80487

IA-32 (32-bit)	80386 SX 376 EX 80486 SX DX2 DX4 SL RapidCAD OverDrive A100/A110 Celeron (1998) M D (2004) Pentium Original OverDrive Pro II II OverDrive III 4 M Dual-Core Core Solo Duo

x86-64 (64-bit)	Celeron D Dual-Core Pentium 4 D Extreme Edition Dual-Core Core 2 i7 (some)

Other	CISC iAPX 432 RISC i860 i960 StrongARM XScale

Current

IA-32 (32-bit)	Tolapai Atom CE SoC Quark

x86-64 (64-bit)	Atom CE SoC Celeron Pentium Core i3 i5 i7 M Xeon E7 E5 E3 Phi

EPIC	Itanium

Lists

Atom Celeron Core 2 i3 i5 i7 M Itanium Pentium Pro II III 4 D M Xeon

Related

Chipsets PCHs SCHs ICHs PIIXs GPUs Codenames GMA HD and Iris Graphics

Microarchitectures

P5	800 nm P5 600 nm P54C 350 nm P54CS P55C 250 nm Tillamook

P6 / Pentium M / Enhanced Pentium M	500 nm P6 350 nm P6 Klamath 250 nm Mendocino Dixon Tonga Covington Deschutes Katmai Drake Tanner 180 nm Coppermine Coppermine T Timna Cascades 130 nm Tualatin Banias 90 nm Dothan Stealey Tolapai Canmore 65 nm Yonah Sossaman

NetBurst	180 nm Willamette Foster 130 nm Northwood Gallatin Prestonia 90 nm Tejas and Jayhawk Prescott Smithfield Nocona Irwindale Cranford Potomac Paxville 65 nm Cedar Mill Presler Dempsey Tulsa

Core / Penryn	65 nm Merom-L Merom Conroe-L Allendale Conroe Kentsfield Woodcrest Clovertown Tigerton 45 nm Penryn Penryn-QC Wolfdale Yorkfield Wolfdale-DP Harpertown Dunnington

Bonnell / Saltwell	45 nm Silverthorne Diamondville Pineview Lincroft Tunnel Creek Stellarton Sodaville Groveland 32 nm Cedarview Penwell Cloverview Berryville Centerton

Nehalem / Westmere	45 nm Clarksfield Lynnfield Jasper Forest Bloomfield Gainestown (Nehalem-EP) Beckton (Nehalem-EX) 32 nm Arrandale Clarkdale Gulftown (Westmere-EP) Westmere-EX

Sandy Bridge / Ivy Bridge	32 nm Sandy Bridge Sandy Bridge-E Gladden 22 nm Ivy Bridge Ivy Bridge-EP Ivy Bridge-EX

Haswell / Broadwell	22 nm Haswell 14 nm Broadwell

Silvermont / Airmont	22 nm Valleyview Tangier Anniedale 14 nm Cherryview

Skylake/Kaby Lake/Coffee Lake/Cannonlake	14 nm Skylake Kaby Lake Coffee Lake 10 nm Cannonlake

Goldmont	14 nm Goldmont

Future (Icelake/Tigerlake)	10 nm Icelake Tigerlake

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