I am thinking of an alter ego name for my self
BlowMeBitches
MoronsAllofYou
FoolsWhyBotherWithBTC
All come to mind. For a nasty poster name. Just post really nasty stuff. Somedays I think I could do this not most.
I hear you. I have had similar thoughts. It just takes too much effort IMHO.
Step zero - don't be an ass
Step one - display proof in a rational manner
Step two - discourse civilly
sidehack's advice generally requires a lot less effort.
Along with clicking 'Ignore' ditto.
Back on topic, my thoughts re: chip delay.
Disclaimer: The following is purely an educated guess by me.
I have no 'in' with information on the hold up of BitFury's chip. My business is not directly involved in the actual production of physical silicon wafers/dies but
is directly involved in what happens to the wafers full of dies (not BitFury's) needing to be tested and packaged into functional chips. Since current Node-size directly impacts what our end has to deal with I
DO closely follow what is happening at the Foundies be they TSMC, Samsung, GloFo or others.
-End disclaimer
That said, I have a good idea on probably what is up. Right? Wrong? Time will tell.
As I have been saying since oh, around Nov. of last year when noise began popping up about 16/14nm mining ASIC's coming out: Great. Yes there are huge advantages to be had.
Once the production technology become viable enough for boutique chips vs micro-processors for Apple, AMD, Samsung, HTC and Cisco (network 'fabric' switches/buffers). Guess what? To meet a reasonable final price-per-chip needed for 16/14nm miner ASIC's the yields per wafer just ain't there yet. Period.Per statements by TSMC earlier this year Apple, AMD, and Cisco will take >80% of their capacity at the 16nm node until around June when 30% (my note - hopefully) more overall capacity there comes on line. Per a few articles I've read pertaining to yields at the 16/14nm node from all foundries is just barely over 50% viable dies per run. Acceptable for Apple, AMD, et al as they can write off scrap costs as part of the dev costs for 16/14nm because they and the other companies I mentioned are literally funding all development at that node and have been for years. Yields like that are devastating to our mining chip needs.
That means that only 20% of capacity is available to other companies, eg BitFury with no certainty of how many good dies per wafer they will get. They along with others have to wait their turn in line, probably set once a month or at best every 2 weeks, to use that capacity to its fullest.
If based on development runs there are tweaks that need to be made to the silicon the delays snowball as Engineering sample wafers make their way through the initial testing at the Foundry, then onto a packaging house to be again probed before dicing from wafers into individual dies and finally packaged into actual chips, then final (hopefully at full speed/power) testing. Only then are the said Engineering samples sent to BitFury and from them to integrators for design testing.
The one shortcut there is that I suspect BitFury have their own packaging house (for what they need it ain't rocket science) so no scheduling conflicts with other customers there. *If* they do own a packaging house, a huge plus to BitFury's bottom line would be that packaging & testing would move from an unavoidable cost to instead being a profit center
Anywho, I'd venture given Punin's acknowledgement of Kilo17 winning their bet that some design issues have arisen requiring respins to address. BFL (all their ASIC's), Bitmine.ch/Innosilicon (A1), and others all come to mind on what can happen to dramatically delay full production of chips.
Will these lower node chips from Bitfury (and no doubt Bitmain ) eventually reach full production mode and yields get better? I see no reason to say no. As for when, anyones guess on that.
Much to the credit of BitFury at least they have not taken the "Promise the moon for specs and pre-order now for delivery in ,<insert totally unrealistic time frame>!" route with the public!
Time to get off of the stump.
