Intel Quark

Intel Galileo-Board with Quark-Processor

Intel Quark is a line of 32-bit x86 SoCs and μCs by Intel, designed for small size and low power consumption, and targeted at new markets including wearable devices. The line was introduced at Intel Developer Forum in 2013. Quark processors, while slower than Atom processors, are much smaller and consume less power. They lack support for SIMD instruction sets (such as MMX and SSE)^[1] and only support embedded operating systems. Quark powers the Intel Galileo developer microcontroller board.^[2] The CPU instruction set is the same as a Pentium (P54C/i586) CPU.^[3]

The first product in the Quark line is the single-core 32 nm X1000 SoC with a clock rate of up to 400 MHz. The system includes several interfaces, including PCI Express, serial UART, I²C, Fast Ethernet, USB 2.0, SDIO, power management controller, and GPIO. There are 16 KB of on-chip embedded SRAM and an integrated DDR3 memory controller.^[4]^[5]

A second Intel product that includes Quark core, the Intel Edison microcomputer, was presented in January 2014. It has a form factor close to the size of an SD card, and is capable of wireless networking using Wi-Fi or Bluetooth.^[6]

In January 2015, Intel announced the sub-miniature Intel Curie module for wearable applications, based on a Quark SE core with 80 KB SRAM and 384 KB flash.^[7] At the size of a button, it also features a 6-axis accelerometer, a DSP sensor hub, a Bluetooth LE unit and a battery charge controller.

In October 2015, Intel's Senior Vice President Josh Walden and Arduino LLC's Massimo Banzi announced the successor to the "Arduino Uno" would be the "Arduino 101" and that it would be based on Intel's Curie module which itself was centered on a Quark processor.

List of Intel Quark processors

"Lakemont" (32 nm)

The name Lakemont has been used in reference to the processor core in multiple Quark-series processors.^[8]^:4^[9]^:42

"Clanton"

(The L2 cache column shows the size of the L1 cache)

Model number	sSpec number	Frequency	GPU frequency	L2 cache	Memory	TDP	Socket	Release date	Part number(s)	Release price (USD)
Quark X1000	SR1BY (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q4'13	DH8066101538300	$9.63
Quark X1001	SR1VB (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q2'14	DHQ1ET	$11.77
Quark X1010	SR1BZ (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q1'14	DH8066101555100	$10.16
Quark X1011	SR1VC (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q2'14	DHQ1ECCET	$12.31
Quark X1020	SR1VW (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q2'14	DHQ1ECCSECCTS1	$11.45
Quark X1020D	SR1BX (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q1'14	DH8066101531900	$10.70
Quark X1021	SR1WH (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q2'14	DHQ1ECCSECETS1	$13.39
Quark X1021D	SR1VA (A0)	400 MHz	N/A	16 KB	DDR3-800	2.2 W	FC-BGA11E	Q2'14	DHQ1ECCSECET	$12.85

"Silver Butte"

Model number	sSpec number	Cores	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Quark D1000	SLKMJ (B1)		32 MHz	N/A	0 KB	AHB-Lite, APB^[10]^:30	eSRAM	1.62–3.63 V	0.025 W	QFN40	Q3'15	DMNIAD01SLVBT

"Mint Valley"

Model number	sSpec number	Cores	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Quark D2000	SR2KF (A0)		32 MHz	N/A	0 KB	AHB-Lite,^[9]^:72APB^[9]^:96	eSRAM	1.62–3.63 V	0.025 W	QFN40	Q3'15	FND2000

"Atlas Peak"

Model number	sSpec number	Cores	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Quark SE C1000	SR2T6 (A0) SR2TJ (A1)		32 MHz	N/A	0 KB	AHB-Lite,APB	eSRAM	1.8–3.3 V	0.025 W	VFBGA144	Q4'15	LMCQ1000	$10.32

Segfault bug

Intel Quark SoC X1000 contains a bug #71538^[11] that "under specific circumstances" results in crash, known in the industry as a segfault. The workaround implemented by Intel is to omit LOCK instructions in the compiled code.^[12] While Yocto Linux based embedded systems incorporate this workaround, general purpose Linux distributions such as Debian are deeply affected by the bug. Such a workaround is not easy to implement on multithreading systems as they require LOCK instruction to function properly.^[13]

References

↑ Turley, Jim (October 16, 2013). "Intel Quark Provides Spin, Charm, and Strange New Low-end x86 MCU Line Emerging from the Lab". EEJournal. Retrieved 8 January 2014.
↑ Intel® Galileo Datasheet
↑ "Intel Quark SoC X1000 Core - Developer's Manual".
↑ Flaherty, Nick (2013-10-07). "Intel Tackles SoC With Quark". EETimes. Retrieved 9 October 2013.
↑ Intel® Quark™ SoC X1000 (16K Cache, 400 MHz) Specifications, Intel
↑ Gareth Halfacree (7 January 2014). "Intel unveils Quark-based Edison microcomputer". BitTech. Retrieved 2014-01-07.
↑ "Intel® Curie™ Module: Unleashing Wearable Device Innovation". Intel. 2015-01-06. Retrieved 12 April 2015.
↑ Intel Quark SoC X1000 Debug Operations. Intel Corporation. 2014.
1 2 3 Intel Quark microcontroller D2000. Intel Corporation. 2015.
↑ Intel Quark Microcontroller D1000 Datasheet. Intel Corporation. 2015.
↑ "Intel Quark SoC X1000 Software - Release Notes". Revision 002. 22 May 2014. p. 21.
↑ "[email protected]: Bug#738575: pthread: segfault in libpthread on Intel Galileo board".
↑ https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=738575

External links

Intel Quark SoC Documents
Quark family // Intel ARK (Product Specs)
Intel's 'Quark' lineup targets wearables. Intel is making the tiniest of chips that can power wearable devices. // CNET, September 10, 2013
Intel Unveils Tiny Quark Chips for Wearable Devices. Processor Is One-Fifth the Size of Its Low-End Atom Chip // The WSJ, September 10, 2013
Intel introduces Quark, a tiny chip for the internet of things and wearable computing // The Verge, 2013-09-10
With Quark, Intel blesses the market of chips for wearable devices // Ventureboat, 2013-09-12

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

Single-board computer & Single-board microcontroller

Devices

SoCs

ARM	Allwinner Ax Exynos i.MX K3V3 MT Nomadik NovaThor OMAP Rockchip Qualcomm Snapdragon Tegra WonderMedia

MIPS	Jz

x86/x86-64	Atom Jaguar-based Puma-based Quark

Software

Comparison of single-board computers

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