ASIC: Difference between revisions

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|sources=date/node size/specs/package<ref>http://landasic.com/doc/info/view.php?id=102&cata=110</ref>
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=== LK Group ===
<table class="wikitable" style="width:100%; font-size:75%;"><tr><td>
{{asic
|style=oneliner
|dev=[[LK Group|LK Group Limited]],http://www.lketc.com/enindex.aspx,Logo-lkgroup.png
|chip=,,,https://bitcointalk.org/index.php?topic=1033676
|die=,14,,
|warning=future,Plans for this chip have been announced<ref>http://www.weibo.com/1064916230/Ce24u30D8?from=page_1005051064916230_profile&wvr=6&mod=weibotime</ref> but it has not yet been manufactured.  Any specifications are highly subject to change.
}}
</td></tr></table>


=== SFARDS ===
=== SFARDS ===

Revision as of 00:25, 22 April 2015

An application-specific integrated circuit (abbreviated as ASIC) is an integrated circuit (IC) customized for a particular use, rather than intended for general-purpose use. In Bitcoin mining hardware, ASICs were the next step of development after CPUs, GPUs and FPGAs. Capable of easily outperforming the aforementioned platforms for Bitcoin mining in both speed and efficiency, all Bitcoin mining hardware that is practical in use will make use of one or more Bitcoin (SHA256d) ASICs.

Note that Bitcoin ASIC chips generally can only be used for Bitcoin mining. While there are rare exceptions - for example chips that mine both Bitcoin and Litecoin - this is often because the chip package effectively has two ASICs: one for Bitcoin and one for Litecoin.

The ASIC chip of choice determines, in large part, the cost and efficiency of a given miner, as ASIC development and manufacture are very expensive processes, and the ASIC chips themselves are often the components that require the most power on a Bitcoin miner.

While there are many Bitcoin mining hardware manufacturers, some of these should be seen as systems integrators - using the ASIC chips manufactured by other parties, and combining them with other electronic components on a board to form the Bitcoin mining hardware.

Bitcoin ASIC development pace

back to: top
CoinTerra Goldstrike timeline

The pace at which Bitcoin ASICs have been developed, for a previously non-existent market, has seen some academic interest. One paper titled "Bitcoin and The Age of Bespoke Silicon" notes:

We examined the Bitcoin hardware movement, which led to the development of customized silicon ASICs without the support of any major company. The users self-organized and self-financed the hardware and software development, bore the risks and fiduciary issues, evaluated business plans, and braved the task of developing expensive chips on extremely low budgets. This is unheard of in modern times, where last-generation chip efforts are said to cost $100 million or more
—Michael Bedford Taylor, University of California, http://cseweb.ucsd.edu/~mbtaylor/papers/bitcoin_taylor_cases_2013.pdf

The Bitcoin and Cryptocurrency Technologies online course by Princeton University notes:

The amazing thing about Bitcoin ASICs is that, as hard as they were to design, analysts who have looked at this have said this may be the fastest turnaround time - essentially in the history of integrated circuits - for specifying a problem, which is mining Bitcoins, and turning it around to have a working chip in people's hands.
—Joseph Bonneau, Postdoctoral research associate, Princeton University, https://www.youtube.com/watch?v=jXerV3f5jN8#t=26m40s

A timeline overview for CoinTerra's Goldstrike 1 chip also shows this as 8 months between founding the company and shipping a product.

Bitcoin ASIC specifications

back to: top
Bitcoin ASIC efficiency vs hash rate

A Bitcoin ASIC's specification could be seen as having a certain hash rate (e.g. Gh/s) at a certain efficiency (e.g. J/Gh). While cost is another factor, this is often a relatively fixed factor as the minimum cost of a chip will be determined by the fabrication process, while the maximum cost will be determined by market forces, which are outside of post-fabrication technological control.

When reading the specifications for ASICs on this page is that they should be interpreted as being indicative, rather than authoritative. Many of the figures will have come from the manufacturers, who will present their technology in the best light - be that high hash rates that in practice may not be very efficient and require additional cooling, or very high efficiency at a cost of hash rate and risking being slow in the race against difficulty adjustments.
Complicating the matter further is that Bitcoin ASICs can often be made to cater to both ends of the spectrum by varying the clock frequency and/or the power provided to the chip (often via a regulated voltage supply). As such, chips can not be directly compared.

Comparing Bitcoin ASICs

Two proposals have been made in the past for attempts at comparing ASICs - Gh/mm² and η-factor.
Gh/mm² is a simple measure of the number of Gigahashes per second of the chip, divided by its die area (area of the the actual silicon). This measure however does not take into account the node size which affects how many logical cells can fit in a given area.
As a result, η-factor was suggested at the BitcoinTalk Forums which attempts to take the node size into account, by multiplying the Gh/mm² value by the half the node size, three times.

Although the merit of these approaches can be debated, ultimately these figures are not as important as the ones that detail what is required to make an ASIC work. If an ASIC requires highly stable power supply, then the power supply circuitry on a board may be more expensive than for another ASIC. If the ASIC has a complex communications protocol, additional relatively expensive components may be required. If an ASIC's die is large, fewer (rectangular slices) can be obtained from a (circular) wafer, defects affect its design dispropotionately, and cooling solutions are generally more complex compared to smaller die chips which in turn have other overhead. Chips with a BGA design are less simple to integrate than a QFN, requiring more expensive (inspection and testing) equipment.
Nevertheless, for historic purposes they are included in listings here where sufficient information is available.

Number of cores

One other oft-mentioned number statistic for an ASIC chip is the number of cores or hashing engines that are on the chip. While this number is directly related to performance, it is not necessarily a comparitive relation.
Bitmain Technologies' BM1382 calculates 63 hashes per clock cycle (Hz), while their more efficient BM1384 calculates 55 hashes per clock cycle. Similarly, while these hashes per clock cycle are spot-on for the claims regarding the number of cores, BitFury's BF756C55 is claimed to have 756 cores, but yields around 11.6 hashes per clock cycle. This is because the reference to cores sometimes mean different things, and certain designs result in less straightforward calculation[1]
Nevertheless, when a designer makes claims regarding hash rates at certain clock frequencies, one can determine if A. there is a straightforward calculation and B. if the designer is being imprecise (rounding values) or even intentionally dishonest, as the ratio between clock cycles and hash rate should remain the same.

ASIC development projects

21

back to: top
21 Inc. Unknown BCT
Facilitators: Qualcomm
No introduction date known
No pictures available
Needs more information (see notes for details)
21, formerly 21e6, is believed to use their own developed chip given their staff. However, little public information about the hardware used is known.

ASICMiner


ASICMiner
Facilitators: BitQuan,BitFountain
Top
Top
Bottom
Bottom
BE100 BCT
Introduced: 2012-Dec-28
Technical specifications
Package: Sawn QFN40 6x6mm
Markings: BE100
Die:4.66x4.66mm@130nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.33661671.053362.01610.024249.2
0.39281251.153923.13610.024957.4
Notes: The letters 'BE' in the component name/markings stands for "Block Erupter". ASICMiner considers the BE100 their 'Gen1' product.
Used on: Block Erupter USB, Block Erupter Cube, Block Erupter Blade
ASICMiner unknown BCT
Facilitators: BitQuan,BitFountain
Planned: 2012-Nov
No pictures available
Die:65nm
Canceled (see notes for details)
Notes: This chip would formally have been ASICMiner's 'Gen2' product.
Development appears to have been canceled prior to production.

ASICMiner
Facilitators: BitQuan,BitFountain
Top (8x8mm)
Top (8x8mm)
Bottom (9x9mm)
Bottom (9x9mm)
BE200www BCT
Introduced: 2014-Mar-28
Datasheet: package dimensions,pins/protocol, pinout
Technical specifications
Package: Sawn QFN64 8x8mm
Markings: BE200 / [lot]
Known codes: lot:8P01N,9C01H,9P02A,9P02H
Die:40nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
9.60.6615150.86.336
Notes: ASICMiner considers this their 'Gen3' product. Was made available in 8x8mm and 9x9mm packages.
Used on: ASICMiner Tube, ASICMiner Prisma

ASICMiner
Facilitators: BitQuan,BitFountain
Top
Top
Layout
Layout
BE300S prototype BCT
Introduced: 2014-Sep-16
Technical specifications
Package: Sawn QFN40*
Markings: BE300S
Die:28nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
30.18753420.5616
5.20.24740501.28388
Notes: This was a prototype manufactured on an MPW. The package appears to be soldered on only 2 sides, which may imply that internally there are also only bond wires to those two sides.
ASICMiner BE300(S) BCT
Facilitators: BitQuan,BitFountain
Planned: 2015-Feb
No pictures available
Package: FCLGA 5x5mm Die:28nm Foundry: TSMC
May not actually exist (see notes for details)Mining: 8Gh/s 0.038J/Gh, 12Gh/s 0.038J/Gh, 6Gh/s 0.033J/Gh, 9Gh/s 0.022J/Gh
Notes: ASICMiner would consider this their 'Gen4' product. The expected hashing performance and package size is preliminary.
The BE300(S) is understood not to be in production at this time.

ASICMiner Unknown a 2015 16nm chip co-developed with BitQuan,BitFountain. The planned node size would be 16nm or 14nmThis chip is planned to be introduced in the future.

ASICrising GmbH


ASICrising
Facilitators: RacyICs
Top (logo)
Top (logo)
Top (no logo)
Top (no logo)
Bottom
Bottom
Wolfbloodwww BCT
Introduced: 2013-Aug
Technical specifications
Package: Sawn QFN88 10x10mm
Markings: with logo:Wolfblood logo / WOLFBLOOD-A0 / [lot1] / [lot2][date] without logo:[illegible / illegible / illegible][date]
Known codes: WB4230-1A0 / UXYK3604647.4913,1214
Die:28nm
Foundry: Global Foundries
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
9.120.6515385.928
10.60.7513337.95
Notes: Only produced in a limited run, as ASICrising opted against making a full mask while their 28nm design was close to being finalized.[2]. Package size is an estimate based on neighboring components.
ASICrising Wolfblood XEwww BCT
Facilitators: RacyICs
Planned: 2014-Aug
No pictures available
Die:8.45x8.45mm@28nm (custom+cell) Foundry: Global Foundries
May not actually exist (see notes for details)Mining: 100Gh/s 0.19J/Gh, 125Gh/s 0.29J/Gh, 150Gh/s 0.29J/Gh
Notes: Third hash rate listed is based on Gh/mm² numbers using the 100Gh as the base value. This was also used to derive the die size for further calculations.
As of 1 April 2015 (2015 -04-01) the ASICrising website states that the design is "Tapeout-ready", implying that it has not yet been manufactured.

ASICrising Wolfblood x14 a 14nm 200Gh/s 0.08J/Gh chip . As of 1 April 2015 (2015 -04-01) no further information on this potential chip has become available beyond the Coinbau investment brochure.

Avalon Project


Avalon Project
Facilitators: Canaan Creative, BitSynCom, Gridchip
top
bottom
Layout
Layout
Die (power)
Die (power)
Die (cores)
Die (cores)
A3256www BCT
Introduced: 2013-Jan-20
Datasheet: datasheet, package
Technical specifications
Package: Sawn QFN48 7x7mm
Markings: Old Avalon logo / A3256-Q48 / [lot/date]
Known codes: P6M56213042C,P6M56313052C,PPT87813212C
Die:3.976x4.056mm@110nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.2956.61521.153751.9470.790.023043.45
Notes: First ASIC to be put to market, with first delivery of a miner to Jeff Garzik.

Avalon Project
Facilitators: Canaan Creative, BitSynCom, GridChip
Top
Top
Bottom (mockup)
Bottom (mockup)
A3255www BCT
Introduced: 2013-Aug
Datasheet: datasheet, package
Technical specifications
Package: Sawn QFN48 7x7mm
Markings: Avalon logo / A3255-Q48 / [lot/date]
Known codes: SKWL0613452CMU
Die:55nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
1.51.66250.87502.42
1.52.454081.07503.6752
Notes: GridChip's involvement with this chip is disputed.[3]

Avalon Project
Facilitators: Canaan Creative, BitSynCom
Top
Top
Bottom
Bottom
A3233www
Introduced: 2014-Apr
Datasheet: datasheet, package
Technical specifications
Package: Sawn QFN48 7x7mm
Markings: Avalon logo / A3233-Q48 / [lot/date]
Known codes: P6P73914092CMU,P6P73914102CAL
Die:40nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
7.080.7513330.556005.3111.8
7.080.8911240.896006.301211.8

Avalon Project
Facilitators: Canaan Creative, Alchip Technologies, Ltd (世芯电子)
Top
Top
Bottom (mockup)
Bottom (mockup)
A3222www BCT
Introduced: 2014-Sep
Datasheet: datasheet, package
Technical specifications
Package: Sawn QFN56 8x8mm
Markings: Avalon logo / A3222-Q56 / [lot/date]
Known codes: T8A98911434EMAA,T4V9181435ECLA
Die:28nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
250.425000.654001062.5
250.616670.84001562.5

Avalon Project Unknown a 2015-Jul chip co-developed with Canaan Creative. This chip is rumored to become available around July of 2015.

BIOSTAR Group


BIOSTAR Group
Top (marked)
Top (marked)
Top (unmarked)
Top (unmarked)
Cobrawww BCT
Introduced: 2014-Mar-17
Technical specifications
Package: Sawn QFN48 7x7mm
Markings: unmarked: n/a marked: Cobra / [lot] / [date]G030
Known codes: D7LJK. 1 / 1348
Die:110nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.3755.4171852.03125
Notes: Efficiency is as specified at the board. Package size is an estimate based on neighboring components.

BitDragonfly

BitDragonfly
Top
Top
Unknown
Introduced: 2014-Jan

Needs more information (see notes for details)
Technical specifications
Package:
Markings: BitDragonfly / CA2472 / L[date]
Known codes: 1403
Not much is known about this chip other than that it existed, was technologically successful, but financially expensive - as noted by Bitcoin entrepreneur Li Xiaolai

BitFury Group


BitFury Group
Facilitators: IMEC,Europractice,BioInfoBank Institute
Tops/Bottom
Tops/Bottom
Layout
Layout
Layout
Layout
Die (optical)
Die (optical)
Die (power)
Die (power)
Die (cores)
Die (cores)
BF756C55www BCT
Introduced: 2013-Jun-14
Datasheet: unofficial datasheet package pinout compilation
Technical specifications
Package: Sawn/Punched QFN48 7x7mm
Markings: β: β / 5Ghash / [date] / [lot] / TT
BioInfoBank: BioInfoBank logo / BIB756C55NM-BF / [date] / [lot]
CCCP: CCCP logo / CCCP756C55NM-BF / [date] / [lot]
Known codes: β: KRT8G, BioInfoBank: 1336/KYG0H, 1404/KCKCL, CCCP: 1340/KYW3Q
Die:3.8x3.8mm@55nm(custom+auto)
Foundry: UMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
2.6750.7812810.8352302.087511.630.193852.61
2.70.812500.8352.160.193888.61
Notes: BitFury Group considers this their Gen 1, Rev 1 product.
It was originally designed at 65nm but die-shrunk down to 55nm[6].
It was widely released in at least 3 different packages/markings: The 'beta' / 5Ghash (estimated hash rate before practical tests) markings on a sawn package, BioInfoBank and CCCP markings on a punched package.
High efficiency claims were made by BitFury[7] that at this time seem unrealistic. BitcoinTalk user vs3 holds a large collection of technical information about this chip in his NanoFury repository[8]

BitFury Group
Facilitators: IMEC,Europractice
Top
Top
Bottom
Bottom
BF864C55www BCT
Introduced: 2014-Mar-03
Technical specifications
Package: Punched QFN48 7x7mm
Markings: BitFury Logo / BF864C55 / [lot]
Known codes: KCYLT,KCTMS
Die:55nm(full custom)
Foundry: UMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
3.8
0.52000
0.5
1.2
Notes: BitFury Group considers this their Gen 1, Rev 2 product.
This chip is pin- and protocol-compatible with the BF756C55, allowing many existing designs based on the BF756C55 to be upgraded.[9][10]

BitFury Group Unknown a 40nm chip . BitFury Group would have considered this their Gen 3 product. No information is available on whether the earlier 'Gen 1 Rev 2' is to be seen as 'Gen 2'.This chip may have been canceled altogether.

BitFury Group Unknown BCT
Introduced: 2015-Feb-28
No pictures available
Die:28nm (full custom)
Needs more information (see notes for details)Mining: 0.2J/Gh
Notes: BitFury Group considers this their Gen 4 product.[11].
BitFury Group have stated that they will not be making chip samples or details available.[12]
As this chip is claimed to exist by a reputable party (BitFury Group), the information in this template requires expansion.

BitFury Group Unknown a 16nm 0.06J/Gh chip . BitFury Group considers this their Gen 5 product.This chip is planned for the future and specifications are highly subject to change.

Bitmain Technologies Ltd.


Bitmain Technologies Ltd.
Top
Top
Top
Top
Bottom
Bottom
BM1380www BCT
Introduced: 2013-Nov-11
Datasheet: datasheet
Technical specifications
Package: Sawn QFN56 8x8mm
Markings: Blank: n/a Common: Antminer logo / BM1380 / [lot/date]
Known codes: U02014G7
Die:3.464x3.464mm@55nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
1.60.66715000.751961.0678.160.132773.08
20.84711810.851.6940.173466.35
2.51.1288861.002.8210.214332.94
2.81.327581.103253.6958.620.234852.89
Notes: Bitmain considers this their 'Gen 1' product.

Bitmain Technologies Ltd.
Top
Top
Bottom (mockup)
Bottom (mockup)
BM1382www BCT
Introduced: 2014-Apr
Datasheet: datasheet
Technical specifications
Package: Sawn FCQFN56* 8x8mm
Markings: Antminer logo / BM1382 / [lot/date]
Known codes: A100114w1
Die:28nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
14.180.52818930.722257.4963.02
17.330.70214250.8027512.1663.02
6.310063
25.240063
Notes: Bitmain considers this their 'Gen 2' product.
This chip uses a custom physical pin configuration that should be treated as a QFN with multiple exposed pads.

Bitmain Technologies Ltd.
Top
Top
Bottom (mockup)
Bottom (mockup)
BM1384www BCT
Introduced: 2014-Sep
Datasheet: datasheet
Technical specifications
Package: Sawn FCQFN32* 8x8mm
Markings: Antminer logo / BM1384 / [lot/date]
Known codes: A10014o1
Die:28nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
8.250.24940090.601502.05855
15.1250.35428230.722755.35755
220.44822340.804009.84855
Notes: Bitmain considers this their 'Gen 3' product.
This chip uses a custom physical pin configuration that should be treated as a QFN with multiple exposed pads.

Bitmain Technologies Ltd. Unknown a 2015-Jul chip . This chip is rumored to become available around July of 2015 for integration into their Antminer S6 product.

Black Arrow


Black Arrow Ltd
Facilitators: Verisilicon
Top
Top
Bottom (mockup)
Bottom (mockup)
Layout
Layout
Minionwww BCT
Introduced: 2014-Apr-10
Datasheet: datasheet footprint
Technical specifications
Package: MCM UFCBGA900 25x25mm
Markings: Black Arrow logo / Black Arrow LTD / MINION / 99s256 / [date] / [lot]
Known codes: 1418 UXYL09065.000
Die:28nm
Foundry: Global Foundries
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
990.85100099
118.80.85120099
500.5200025
1.01
Notes: string

Black Arrow Ltd Unknown a 2015-May 14nm 0.3J/Gh chip . Tape-out was purportedly in December 2014This chip is slated for the future.

Btc-Digger

Btc-Diggerwww
Top
Top
Unknownwww BCT
Introduced: 2013-Aug-10

Needs more information (see notes for details)
Technical specifications
Package: QFP48 7x7mm
Markings: none
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.151501
0.252501
Notes: Date is tape-out date.
Little is known about this Bitcoin ASIC other than that it existed and was used in a small number of miners on the Chinese market

BTCGARDEN


BTCGARDENwww
Top (V2)
Top (V2)
Top (V3)
Top (V3)
Layout
Layout
Layout
Layout
Garden BCT
Introduced: 2013-May-22
Technical specifications
Package: LQFP64 10x10mm
Markings: GardenV[batch] / 0924
Known codes: 2, 3
Die:130nm
Foundry: SMIC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.43.752671.254001.51
Notes: Date is tape-out date.

BTCGARDENwww Unknown a 2013-Dec 40nm chip . Along with an IPO, BTCGARDEN's 40nm endeavours were canceled. BTCGARDEN would then go on to use ASICMiner's BE200 40nm chip in mining products.

Butterfly Labs, Inc.


Butterfly Labs, Inc.
Facilitators: Chronicle Tech (now Custom Silicon Solutions)
Tops/Bottom
Tops/Bottom
Layout
Layout
Die
Die
Die (detail)
Die (detail)
BitForce SCwww BCT
Introduced: 2013-Feb-08
Datasheet: datasheet(alt) protocol(alt)
Technical specifications
Package: FCBGA144 10x10mm
Markings: Blank:n/a ButterFly Labs Logo / BUTTERFLYLABS / BFSC100F144 / US10 / [lot] [date]
Known codes: 6770 3013,1393 3513
Die:7.5x7.5mm@65nm(full custom)
Foundry: Global Foundries/IBM
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
4.22.857350120.072563.17
43.23131.025012.8160.072441.11
Notes: ASIC based on their FPGA design. The first publicly known to exist Bitcoin ASIC.

Butterfly Labs, Inc.
Facilitators: Custom Silicon Solutions
Top
Top
Bottom (mockup)
Bottom (mockup)
Die (optical)
Die (optical)
Layout
Layout
Monarch BCT
Introduced: 2014-Aug-21
Technical specifications
Package: FClBGA1188 (36x33) 24x21mm
Markings: Butterfly Labs logo / BFSC28NM02 2006 / FPBGA1188 [date] / [lot?]
Known codes: 2614
Die:24x21mm@28nm
Foundry: Global Foundries
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
4000.2737041080.792177.78
6000.3925642341.193266.67
10000.5518185501.985444.44
16000.76131612163.178711.11
Notes: Die/package size are derived estimates based on wafer and board images with other known dimensions.

Clam Ltd


Clam Ltd
Top
Top
Bottom (mockup)
Bottom (mockup)
CLSH55Q100 BCT
Introduced: 2013-Nov-18
Datasheet: datasheet
Technical specifications
Package: Sawn QFN100 12x12mm
Markings: CLAM logo / CLSH55Q100
Die:55nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
2.14761.0
2.562.54001.13206.48
3.233331.24009.68
3.34207.86

CoinTerra, Inc.


CoinTerra, Inc.
Facilitators: Open-Silicon
Top
Top
Bottom (mockup)
Bottom (mockup)
Top
Top
Layout (1 die)
Layout (1 die)
GoldStrike 1www BCT
Introduced: 2013-Nov-08
Datasheet: infosheet, presentation presentation video
Technical specifications
Package: QMCM FCBGA1296 37.5x37.5mm
Markings: Q1 only: COINTERRA / GoldStrike 1 / [lot] / [date] TAIWAN
Q1-4: COINTERRA / GoldStrike 1 / [lot] / [date] TAIWAN
Known codes: Q1:UOLK46001B10 / 1352, Q1-4: UOLL04004.01A / 1403, UOLL04004.01A / 1414, UOLK46006.01A / 1403
Die:20x10mm@28nm
Foundry: Global Foundries Dresden
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
5040.714003602.526914.88
72020003603.69878.4
0.59516800.765
Notes: Although the MCM package shows 4 dies, only 3 are active silicon.[17] Die size is thus based on 2*10x10mm

CoinTerra, Inc. SHIVAwwwBCT a 2014-Sep-18 16nm 0.225J/Gh chip co-developed with Global Unichip Corp. Assumed not to have gone into production before CoinTerra's Chapter 7 Bankruptcy.

DigBig


DigBigwww
Facilitators: Gevey / FuriousBTC / Zhen Liu
Top
Top
Bottom
Bottom
FB1600 BCT
Introduced: 2014-Mar-30
Technical specifications
Package: CSP BGA168 (12x14) 5x6mm
Markings: DigBig logo / DIGBIG FB1600 / [date] / SGCQP-001
Known codes: 1412
Die:5x6mm@40nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
15.6250.95105314.843750.524166.67
12.0050.8540030.010.43201.23
15.2120.92549630.670.514056.55
16.6961.00054430.690.564452.28

Gridchip

Gridchip UnknownBCT a 2013-Jul-04 40nm 2Gh/s chip . This chip was canceled, however its technology would eventually surface in the Gridseed GC3355.See also: GridSeed, SFARDS

Gridseed


Gridseed
Facilitators: GridChip
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GC3355www BCT
Introduced: 2013-Dec
Datasheet: datasheet, I/O appnote register settings
Technical specifications
Package: Sawn QFN64 8x8mm
Markings: Gridseed logo / BTC & LTC / GC3355-Q64 / [lot/date]
Known codes: P6P19013462C
Die:40nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
12.354261.04002.352.5
1.52.3274301.06003.492.5
1.8752.3474261.07504.42.5
2.252.3564251.09005.32.5
Notes: This chip can perform SHA256(d) and Scrypt calculations. The performance figures are strictly for the SHA256(d) portion.
The 'GC' in the product code stands for 'Gridchip'[18].
See also: GridChip, SFARDS.

HashFast Technologies, LLC


HashFast Technologies, LLC
Facilitators: Uniquify,Ciara,Signetics,Sandgate
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Die (1/4)
Die (1/4)
Layout (1/4)
Layout (1/4)
Engine
Engine
Golden Noncewww BCT
Introduced: 2013-Dec-19
Datasheet: datasheet protocol*
Technical specifications
Package: QMCM FCBGA1936 43x43mm
Markings: Blank: n/a Q1 HashFast logo / GN-A0-CBH / [lot] / [date] KOREA
Known codes: T6A377.L0 4813, T6A385.00 0314, T6A416.00 1014
Die:18x18mm@28nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
422.40.6515380.81550274.567681.33577.36
537.67007681.664553.01
76810007682.376504.3
Notes: 'Golden Nonce' is a term used in Bitcoin mining, see: Golden Nonce
The MCM has four dies with active silicon, and each die is 9x9mm[19], giving an 18x18mm total die size.
* The Golden Nonce communication protocol was released released as open source[20] - however, in court proceedings, it became clear that HashFast applied for a patent on this protocol.[21]

HashFast Technologies, LLC generation 2' a 2013-Aug-21 16nm chip co-developed with DXCorr. Date is initial design start date. Plans of this chip were revealed in HashFast's bankruptcy case. Although listed here under HashFast Technologies, the IP rights lay with DXCorr.This chip was canceled at some point during its development, in favor of 'generation 1.5

HashFast Technologies, LLC generation 1.5 a 2013-Dec-01 28nm chip co-developed with DXCorr. Date is initial design start date. Plans of this chip were revealed in HashFast's bankruptcy case. Development of this chip began after 'generation 2.0' was canceled.This chip was canceled after DXCorr ceased verbal communication pending HashFast's bankruptcy case.

HASHRA Limited

HASHRA Moonrakerwww BCT
Planned: 2014-Dec
No pictures available
Die:28nm
Future (see notes for details)
Notes: Hashra has traditionally used existing hardware, reselling these 'as is' or in custom cases. The chip used in the Moonraker product may well be a pre-existing chip of unstated origin. At least one party noted that As of 9 September 2014 (2014 -09-09), the chips should exist[27]
Recent BitcoinTalk Forum posts indicate that this hardware is still under development - after numerous delays, despite taking orders.

iCoinTech


iCoinTech
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Top
QT20 BCT
Introduced: 2014-Jan-02
Technical specifications
Package: Sawn QFN64 8x8mm
Markings: QT20 / CA3755 / X[date]
Known codes: 1349
Die:130nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.315
0.38
0.38.2331212.47
Notes: Efficiency is at the board level for single-chip USB device.
Used on: iCoinTech iMiner, T-Miner

iCoinTech Unknown a 2014-Apr chip . A next chip was mentioned, and in a private message to TheRealSteve, iCoinTech noted that there were unexpected delays. No new information has since surfaced, and it may have been canceled.

Innosilicon


INNOSILICON Technologies LTD Co.
Facilitators: Bitmine AG, Synapse, Verisilicon
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A1 Booster / Coincraft A1www BCT
Introduced: 2013-Dec-31
Datasheet: datasheet
Technical specifications
Package: Sawn QFN* 12x12mm
Markings: (stylized) A1 / [date]-[lot]
Known codes: 1312-1,1312-3,1312-6
Die:28nm
Foundry: Global Foundries
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
200.3528570.65600733.33
250.616670.7658001531.25
33110000.8510003333
Notes: This chip uses a custom physical pin configuration that should be treated as an LPCC with multiple power pads.
Used on: Bitcoin Ultra Enigma

KnCMiner Sweden AB


KnCMiner
Facilitators: ORSoC, Alchip Technologies, Ltd (世芯电子), Accel Partners
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Layout
Layout
Die (detail)
Die (detail)
Engine
Engine
Jupiterwww BCT
Introduced: 2013-Oct-05
Datasheet: infosheet: infosheet pinout (full datasheet upon purchase[29])
Technical specifications
Package: FClBGA2797 55x55mm
Markings: KnCMiner logo / OCTTNC-AJMMS-007 / [lot] / [lot2] / [date]
Known codes: T6A273.00 / T6A27300-2 / 13/39, T6A273.05 / T6A27305-1 / 13/39
Die:28nm(standard cell)
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
1301.4846740.9155677192.9192.02
Notes: Need a more solid date than 'November 2013'
Used on: KnCMiner Mercury/Saturn/Jupiter

KnCMiner
Facilitators: Alchip Technologies, Ltd (世芯电子)
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Neptunewww BCT
Introduced: 2014-Jun-17
Technical specifications
Package: FClBGA2797 55x55mm
Markings:
Die:20nm
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
6840.5717540.7475389.881440
KnCMiner Solarwww BCT
Facilitators: Alchip Technologies, Ltd (世芯电子), Ltd
Introduced: 2015-Feb-03
No pictures available
Die:16nm Foundry: TSMC
Needs more information (see notes for details)Mining: 0.07J/Gh
As this chip is claimed to exist by a reputable party (KnCMiner AB), the information in this template requires expansion.

Land Asic


Land Asic
Facilitators: Bitcoin Development Ltd.
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LDS600www BCT
Introduced: 2013-Jul
Technical specifications
Package: QFN48 7x7mm
Markings: none
Die:5x5mm@150nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.60.0210125
0.630.0310631.25
2.439410
2.927342
Notes: Package size is an estimate based on neighboring components.
Land Asic Unknownwww
Introduced: 2013-Nov
No pictures available
Package: QFN100 Markings: none Die:55nm
Mining: 2Gh/s 2.5J/Gh, 2.5Gh/s 3J/Gh

LK Group

LK Group Limitedwww UnknownBCT a 14nm chip . Plans for this chip have been announced but it has not yet been manufactured. Any specifications are highly subject to change.

SFARDS


SFARDS
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Bottom
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SF3301 BCT
Introduced: 2015-Mar-10
Technical specifications
Package: FCBGA529*
Markings: SF3301-FC481 / 0502043[date]2M
Known codes: 1513
Die:28nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
152
0.195263
0.8
Notes: This chip can perform SHA256(d) and Scrypt calculations. The performance figures are strictly for the SHA256(d) portion.
Date is tape-out date.
See also: GridChip, GridSeed.

Spondoolies-Tech LTD


Spondoolies-Tech LTD
Facilitators: Global UniChip, FlexTronics
Top
Top
Bottom (mockup)
Bottom (mockup)
Hammer BCT
Introduced: 2014-Mar-19
Datasheet: datasheet
Technical specifications
Package: Sawn QFN68 8x8mm
Markings: spondooliestech / Hammer A0 / [lot] / [date]
Known codes: P6P698.08A-1E / 1409, P6P698.00A-1E / 1408
Die:40nm(custom+auto)
Foundry: TSMC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
6.50.53818570.64303.515.12
7.50.616670.655004.515
7.50.5817240.634.35
8.30.65115370.75505.415.09
Notes: The datasheet mentions further core frequencies of 225MHz through 660MHz which would yield 3.38Gh/s and 9.9Gh/s respectively, but are not explicitly specified.

Spondoolies-Tech LTD
Facilitators: Global UniChip,FlexTronics
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Layout
Layout
Engine
Engine
RockerBoxwww BCT
Introduced: 2014-Jul-22
Datasheet: product brief (full datasheet behind NDA)
Technical specifications
Package: FCBGA480 19x19mm
Markings: spondooliestech /RockerBox[lot1] / [lot2] / [date]
Known codes: n/a / T8A970.00K-1E / 1429, F20 / TAG896.00K-1 / 1442, F20 / TAM564.00K-1 / 1445
Die:10x11.5mm@28nm(custom+auto)
Foundry: foundry
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
1740.31631640.690055193.331.514151.79
1900.3429410.6398464.6193.091.654533.57
2120.42523560.7110090192.731.845058.5
Notes: This is a die shrink of the Hammer.[31]. Tape-out was May 14th 2014[32].
The product brief mentions further core frequencies of 500MHz and 1500MHz which would yield 96.5Gh/s and 289.5Gh/s respectively, but are not explicitly specified.

Spondoolies-Tech LTD PickAxeBCT a 2014-Oct 28nm 800Gh/s 0.1J/Gh chip . Ghash performance based on stated power consumption and power efficiencyPickAxe was slated for Q4 2014 with tape-out reported to be in October 2014. As of 26 March 2015 (2015 -03-26), no new information has been presented.

Spondoolies-Tech LTD MattockBCT . Mattock was mentioned in the BitcoinTalk thread, but it is uncertain if it is/was to be a (Bitcoin) ASIC.

TMR

TMRwww
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Top
Unknownwww BCT
Introduced: 2013-Jun-28
Technical specifications
Package: Sawn QFN56 7x7mm
Markings: none
Die:153nm
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.1441.6256150.23359375

TMRwww UnknownwwwBCT a 2013-Sep-23 110nm 0.313Gh/s 2.5J/Gh chip .

TMRwww Unknownwww a 2014-Feb 55nm 2Gh/s 0.9J/Gh chip . Intended to be package, pin and protocol compatibe with the TMR's 110nm offering.TMR sought venture capital for development of a 55nm chip, but As of 1 April 2015 (2015 -04-01) no further information has become available.

Canceled projects

back to: top

The following is a list of projects that are known or confidently presumed to have been canceled prior to production.

bASIC

bASIC unknownwwwBCT a 2012-Sep-03 90nm 4.5Gh/s 6.413J/Gh chip co-developed with BTCFPGA. This project was effectively canceled on January 9th, 2013

BTCMinerz

BTCMinerz
Layout
Layout
Layout
Layout
SuperMiner 2.0 BCT
Planned: 2013-Sep-23

Canceled (see notes for details)
Technical specifications
Die:3.3x2.5mm@55nm
Foundry: SMIC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
1.40.9310750.93501.30240.173529.17
Notes: Die size is approximate based on 8.2mm² die area and assumed die aspect ratio.
Presumed to have been canceled prior to production.

DeepBit

DeepBit ReclaimerBCT a 2012-Sep-10 chip . This project was declared canceled on April 8th 2013

helveticoin

helveticoin UnknownBCT a 2012-Oct 28nm 64Gh/s 0.078J/Gh chip co-developed with STMicroelectronics. Date is claimed tape-out date. Gh/s performance is based on claimed clock frequency and number of hashing engines. Claimed to incorporate / be built around an ARM Cortex M3 core.Presumed to have been canceled prior to production or to have been a ruse given claims.

LargeCoin

LargeCoin UnknownBCT a 2012-Jul chip . Presumed to have been canceled prior to production.

Marchenko Ltd

Marchenko Ltd unknownBCT a 2012-Apr-04 chip . Project was cancelled on July 12th, 2012

Novello Technologies

Novello Technologies unknownwwwBCT a 2014-Jun-03 40nm 128Gh/s 0.195J/Gh chip . Die size is an estimate based on a stated chip size of 100mm²Project was put on indefinite hold on June 12th, 2013

OpenBitASIC

OpenBitASIC unknownBCT a 2012-Apr-12 chip . Project was canceled on April 14th, 2013

papa moi

papa moiwww
Facilitators: Brite Semiconductor, ChipMotion Microelectronics Co, Ltd.
Layout
Layout
Unknownwww BCT
Planned: 2013-Nov-27

Canceled (see notes for details)
Technical specifications
Package: QFN
Markings:
Die:65nm
Foundry: SMIC
Gh/sJ/GhMh/JVMHzWh/HzGh/mm²η-factor
0.7
0.781.20
11.55
11000
Notes: Date is tape-out-ready date.
Project appears to have been canceled, no new information since December 12th, 2013. Developer's behavior became erratic.

Xcrowd

xCrowd Terra One / Z1wwwBCT[media: a ] a 2013-Jul-02 40nm 15Gh/s 1.667J/Gh chip . Listed as both Z1 and Terra OnePresumed to have been canceled prior to production.

Questionable projects

back to: top

The following is a list of projects that were not formally canceled and are generally presumed to have been dishonest in their presentation of the existence / performance / depiction of the chip and/or the company.

Note: Most links below will lead to external sites. Icons have been surpressed to prevent link clutter.

External links

References

  1. https://bitcointalk.org/index.php?topic=228677.msg2408299#msg2408299
  2. https://bitcointalk.org/index.php?topic=719143.msg8334447#msg8334447
  3. http://www.reddit.com/r/IAmA/comments/31zrl6/hi_im_ngzhang_founder_of_avalon_project_a_senior/cq6k79m
  4. https://bitcointalk.org/index.php?topic=995675.msg10870264#msg10870264
  5. https://bitcointalk.org/index.php?topic=608302.0
  6. https://bitcointalk.org/index.php?topic=228677.msg2408831#msg2408831
  7. https://bitcointalk.org/index.php?topic=183368.msg2499516#msg2499516
  8. https://github.com/nanofury/NanoFury/wiki/The-missing-bitfury-chip-documentation
  9. https://bitcointalk.org/index.php?topic=228677.msg5460261#msg5460261
  10. https://bitcointalk.org/index.php?topic=321287.msg5954289#msg5954289
  11. https://www.cryptocoinsnews.com/interview-bitfury-ceo-valery-vavilov-new-bitcoin-asic-chips-horizon/
  12. https://bitcointalk.org/index.php?topic=896350.msg10697809#msg10697809
  13. http://www.blackarrowsoftware.com/store/14nm-bitcoin-asic-announcement.html
  14. http://www.btcman.com/btcgarden/forum.php?mod=viewthread&tid=5599
  15. https://bitcointalk.org/index.php?topic=264696.msg2914929#msg2914929
  16. http://www.btcgarden.com/product
  17. https://bitcointalk.org/index.php?topic=300469.msg3221155#msg3221155
  18. https://bitcointalk.org/index.php?topic=355268.0
  19. https://bitcointalk.org/index.php?topic=270384.msg2975145#msg2975145
  20. http://hashfast.com/golden-nonce-interface-protocol-released/
  21. http://hashfast.org/14-30725.170.pdf page 6
  22. http://hashfast.org/14-30725.156.pdf page 8
  23. http://hashfast.org/14-30725.148.pdf page 211
  24. http://hashfast.org/14-30725.148.pdf page 200
  25. http://hashfast.org/14-30725.148.pdf page 212
  26. http://hashfast.org/14-30725.148.pdf page 218
  27. https://hashtalk.org/topic/4002/manebjorn-s-miner-wishlist-for-reviews
  28. https://bitcointalk.org/index.php?topic=455332.msg5018212#msg5018212
  29. https://bitcointalk.org/index.php?topic=743258.msg9748145#msg9748145
  30. http://www.weibo.com/1064916230/Ce24u30D8?from=page_1005051064916230_profile&wvr=6&mod=weibotime
  31. https://bitcointalk.org/index.php?topic=521520.msg6145608#msg6145608
  32. http://www.spondoolies-tech.com/blogs/news/14226621-rockerbox-2nd-gen-asic-tape-out
  33. https://bitcointalk.org/index.php?topic=521520.msg10597505#msg10597505
  34. https://www.cryptocoinsnews.com/guy-corem-ceo-spondoolies-tech-speaks-miners-future-mining/
  35. https://www.cryptocoinsnews.com/guy-corem-ceo-spondoolies-tech-speaks-miners-future-mining/
  36. http://www.cybtc.com/forum.php?mod=viewthread&tid=205
  37. https://bitcointalk.org/index.php?topic=135428.0
  38. https://bitcointalk.org/index.php?topic=108375.msg1767578#msg1767578
  39. https://bitcointalk.org/index.php?topic=88331.msg1025900#msg1025900
  40. https://bitcointalk.org/index.php?topic=638729.msg7267601#msg7267601
  41. https://bitcointalk.org/index.php?topic=76351.msg1834760#msg1834760
  42. https://bitcointalk.org/index.php?topic=354426.msg3794135#msg3794135
  43. https://bitcointalk.org/index.php?topic=350013.msg3776410#msg3776410
  44. https://bitcointalk.org/index.php?topic=522390.msg5786100#msg5786100
  45. http://us7.campaign-archive2.com/?u=66f05229c32561289ceb680a8&id=db46896dd7
  46. http://gallery.mailchimp.com/66f05229c32561289ceb680a8/images/Terra_One.1.png
  47. https://bitcointalk.org/index.php?topic=269730.msg2891405#msg2891405
  48. https://bitcointalk.org/index.php?topic=325484.0
  49. http://www.wsj.com/articles/SB10001424052702303465004579325064077902306
  50. https://www.facebook.com/asicrigs/photos/a.235889736536364.1073741828.235882613203743/235890703202934/?type=1
  51. https://www.facebook.com/asicrigs/photos/a.235889736536364.1073741828.235882613203743/235889739869697/?type=1&permPage=1
  52. http://www.fujitsu.com/global/Images/mb86e631_tcm100-916813.jpg
  53. https://bitcointalk.org/index.php?topic=189846.msg2205949#msg2205949
  54. http://forcedperfect.net/hardware/cards/applequickdraw3dcard/
  55. https://bitcointalk.org/index.php?topic=374525.0
  56. http://cointelegraph.com/news/111069/the_new_leader_in_mining_interview_with_thomas_j_ackermann_bitcoin_brothers
  57. http://www.heise.de/newsticker/meldung/Bitcoin-Brothers-Berliner-Startup-will-das-Mining-umkrempeln-2442025.html
  58. https://bitcointalk.org/index.php?topic=944406.0
  59. http://newsbtc.com/2013/12/17/boscombe-pierlytic-responds-bitcoin-miner-scam-accusations/
  60. https://archive.today/wkC3o#msg3881626
  61. https://archive.today/wkC3o
  62. https://archive.today/wkC3o#msg3881626
  63. https://bitcointalk.org/index.php?topic=561122
  64. http://cointelegraph.com/news/111640/disreputable_company_claims_5_th_rate_mining_rig
  65. https://bitcointalk.org/index.php?topic=159560
  66. https://bitcointalk.org/index.php?topic=159560.msg2004199#msg2004199
  67. https://bitcointalk.org/index.php?topic=374920.0
  68. https://bitcointalk.org/index.php?topic=429513.msg4825122#msg4825122
  69. https://bitcointalk.org/index.php?topic=429513.msg4825122#msg4825122
  70. https://bitcointalk.org/index.php?topic=432716.msg10976689#msg10976689
  71. https://bitcointalk.org/index.php?topic=374920.0
  72. https://bitcointalk.org/index.php?topic=214526
  73. https://bitcointalk.org/index.php?topic=167273.msg1741686#msg1741686
  74. https://bitcointalk.org/index.php?topic=903855
  75. http://www.extolabs.com/images/chip.jpg
  76. http://www.extolabs.com/images/chips.jpg
  77. https://bitcointalk.org/index.php?topic=680050
  78. https://bitcoingalaxy.us/wp-content/uploads/2014/06/14nm-ASIC-mining-chips-the-future.png
  79. https://i.imgur.com/KIx6WYol.png
  80. https://bitcointalk.org/index.php?topic=158044
  81. https://bitcointalk.org/index.php?topic=250428
  82. https://bitcointalk.org/index.php?topic=250428.msg10668193#msg10668193
  83. https://bitcointalk.org/index.php?topic=285524
  84. https://bitcointalk.org/index.php?topic=368243.0
  85. https://www.hashblaster.com/images/chip.jpg
  86. http://javier.esilicon.com/page/3/
  87. http://www.labcoin.com/presentation.html
  88. https://bitcointalk.org/index.php?topic=241033.msg2640643#msg2640643
  89. http://www.reddit.com/r/Bitcoin/comments/1ntdxt/howard_wang_responds_to_qa_labcoin_is_a_scam/
  90. https://bitcointalk.org/index.php?topic=263445.msg3327454#msg3327454
  91. https://bitcointalk.org/index.php?topic=263445.msg3034290#msg3034290
  92. https://bitcointalk.org/index.php?topic=263445.msg3116166#msg3116166
  93. https://bitcointalk.org/index.php?topic=263445.msg3116299#msg3116299
  94. https://bitcointalk.org/index.php?topic=263445.msg3148974#msg3148974
  95. https://bitcointalk.org/index.php?topic=263445.msg3152956#msg3152956
  96. https://bitcointalk.org/index.php?topic=241033.msg2640643#msg2640643
  97. https://bitcointalk.org/index.php?topic=263445.msg3327454#msg3327454
  98. https://bitcointalk.org/index.php?topic=325431
  99. http://www.reddit.com/r/Bitcoin/comments/1ncckq/labcoin_has_been_outed_as_a_scam_run_by_notorious/
  100. https://bitcointalk.org/index.php?topic=155896
  101. https://bitcointalk.org/index.php?topic=323084.msg3567093#msg3567093
  102. https://bitcointalk.org/index.php?topic=323084.msg3578508#msg3578508
  103. https://bitcointalk.org/index.php?topic=323084
  104. http://bitcoinminingcenter.com/wp-content/themes/hyperion/images/slideshow/slide3.png
  105. http://bitcoinminingcenter.com/wp-content/themes/hyperion/images/slideshow/slide4.png
  106. http://support.g-technology.com/support/g-safe
  107. http://www.g-technology.com/products/g-speed-es-4-hard-drive-failsafe-raid-16-tb
  108. https://bitcointalk.org/index.php?topic=365585
  109. https://bitcointalk.org/index.php?topic=268180.msg2922218#msg2922218
  110. https://bitcointalk.org/index.php?topic=148832.msg1636723#msg1636723
  111. http://mineforeman.com/2013/03/04/another-asic-manufacturer-enters-the-bitcoin-mining-device-market/
  112. http://8btc.com/thread-992-1-1.html
  113. http://8btc.com/thread-992-1-1.html
  114. http://www.kuangjibi.com/news/delay
  115. https://bitcointalk.org/index.php?topic=270211
  116. https://bitcointalk.org/index.php?topic=462370.msg5993485#msg5993485
  117. https://bitcointalk.org/index.php?topic=206488.msg2694526#msg2694526
  118. https://bitcointalk.org/index.php?topic=462370.msg5993485#msg5993485
  119. https://bitcointalk.org/index.php?topic=462370.msg5993585#msg5993585
  120. https://bitcointalk.org/index.php?topic=462370.msg10572375#msg10572375
  121. https://bitcointalk.org/index.php?topic=462370.msg5993485#msg5993485
  122. https://bitcointalk.org/index.php?topic=462370.msg5464331#msg5464331
  123. https://bitcointalk.org/index.php?topic=344630
  124. https://zte-asic.com/
  125. https://www.synology.com/en-us/products/DS115
  126. https://www.synology.com/en-global/products/DS414
  127. https://bitcointalk.org/index.php?topic=387168