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Topic: Why is the cost of ASIC development >1M?? (Read 3404 times)

member
Activity: 112
Merit: 10
April 20, 2013, 03:38:41 PM
#26
technically it won't be a mil+, it all depends on how much you can do yourself, still the most expensive parts are going to be to get the chips made, and your not gonna get under the prices MRB linked for that. But yes a combination of knowledge, capital and preorders should get you pretty close on getting on created. And you might need a little extra capital, but by that time your around in the bitcoin forums and irc long enough, to have some buddies who can loan you some. And yes while FPGA's are a good stepping stone to ASIC's they are not the same, and an ASIC will always overpower an FPGA. (depending on what they are designed to do ofc)

I mean if you can get fpga chips cheap enough it can rival ASICs.
member
Activity: 112
Merit: 10
If kncminer were to get 1000 orders at their asking prices, which is what they are asking for in full before the first unit is shipped, they'd have 2,250,000. It's an obvious business model, get as much as possible up front through wildly optimistic lies about the specs and/or shipping date, and let the suckers customers rot. You'll have made the amount of money that would be justified by a miracle production cycle and manufacturing process, for something pretty basic that half of your customers might not even break even on, but all without breaking any laws. BFL didn't really put much thought into what they were doing, which is why we probably won't see a good miner from them until they figure out how to plagiarise avalon's software when it becomes open source, and by this stage when they're shipping 30GH/s electricity drinkers anyone with the price of a minirig preorder can probably build something powerful enough to run the large hadron collider.

Wrong thread, and its called a paypal dispute. And before you actually pay anything they will tell you specs.
full member
Activity: 140
Merit: 100
Mining FTW
technically it won't be a mil+, it all depends on how much you can do yourself, still the most expensive parts are going to be to get the chips made, and your not gonna get under the prices MRB linked for that. But yes a combination of knowledge, capital and preorders should get you pretty close on getting on created. And you might need a little extra capital, but by that time your around in the bitcoin forums and irc long enough, to have some buddies who can loan you some. And yes while FPGA's are a good stepping stone to ASIC's they are not the same, and an ASIC will always overpower an FPGA. (depending on what they are designed to do ofc)
member
Activity: 98
Merit: 10
If kncminer were to get 1000 orders at their asking prices, which is what they are asking for in full before the first unit is shipped, they'd have 2,250,000. It's an obvious business model, get as much as possible up front through wildly optimistic lies about the specs and/or shipping date, and let the suckers customers rot. You'll have made the amount of money that would be justified by a miracle production cycle and manufacturing process, for something pretty basic that half of your customers might not even break even on, but all without breaking any laws. BFL didn't really put much thought into what they were doing, which is why we probably won't see a good miner from them until they figure out how to plagiarise avalon's software when it becomes open source, and by this stage when they're shipping 30GH/s electricity drinkers anyone with the price of a minirig preorder can probably build something powerful enough to run the large hadron collider.
newbie
Activity: 28
Merit: 0
So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).

What if they had simply used the open source FPGA designs for the first version of their ASICs?

ASIC's != FPGA's.

They have their similarities, but the way you implement a design with them is entirely different.
hero member
Activity: 924
Merit: 501
So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).

What if they had simply used the open source FPGA designs for the first version of their ASICs?

done.   https://bitcointalksearch.org/topic/designing-the-next-generation-fast-crypto-currency-mining-machine-179033
hero member
Activity: 714
Merit: 500
Martijn Meijering
So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).

What if they had simply used the open source FPGA designs for the first version of their ASICs?
member
Activity: 112
Merit: 10
@pizza's OP:

For a typical new-tech ASIC, 600k-1M seems reasonable.

I have been through a couple ASIC design cycles at my last job (longwave data receiver, which is arguably much different than a purely digital ASIC like Avalon's/BFL's). As the company was small, as an engineer I was also part of the budget meetings. It cost roughly 1M to get to our first working ASIC wafer. 400-500k went to development and the engineering runs of chips. First, everything was "simulated" on a mix of FPGA hardware (for the digital side of things) and analog hardware (for signal reception/analog side of things). About 250k went into the first two engineering wafers (first prototype batch, first revision batch), and the remaining amount 250k-ish went into manufacturing 10k chips + verification and validation hardware. Built into these numbers is roughly 1 year of employee salaries (there were roughly 10 of us working on this stuff).

So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).

so can digital ASIC like Avalon be done for much less?

My guess is yes, since the whole of whats inside a digital ASIC can be done fully on an FPGA first (hence less time/effort in producing PCBs to test analog sections). The only difference is that a FPGA would be less efficient than an ASIC would end up being (obviously). But this can all be accurately simulated.

So chop my numbers in half and they start approaching the Avalon pre-order range.

[edit] Ah, so based on what BkkCoins said, he had a little capital from the Icarus project. Add that to preorders cash and previous FPGA bitstreams, and he probably developed the Avalon ASIC for 250k or less.

This makes much more sense and reasonable.
mrb
legendary
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member
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it cannt be done.  the chip that bfl is alleging to have made cost millions.  it cannot be done for less.  they raised more than 2 million by selling pre-orders.

What do you mean you just mentioned adding to an existing ASIC can cost 200K, can't Avalon just modify an existing ASIC and create their current product? Because like I said Avalon does not seem like a company that raised millions of dollars lol.


they are offering a fully custom ASIC... not a structured ASIC.  10 fold price increase.   research and find that bfl sold 30,000 preorders.
I'm talking about Avalon not BFL, I know BFL has the money to develop a multi million dollar ASIC.
hero member
Activity: 924
Merit: 501
it cannt be done.  the chip that bfl is alleging to have made cost millions.  it cannot be done for less.  they raised more than 2 million by selling pre-orders.

What do you mean you just mentioned adding to an existing ASIC can cost 200K, can't Avalon just modify an existing ASIC and create their current product? Because like I said Avalon does not seem like a company that raised millions of dollars lol.


they are offering a fully custom ASIC... not a structured ASIC.  10 fold price increase.   research and find that bfl sold 30,000 preorders.
sr. member
Activity: 303
Merit: 250
@pizza's OP:

For a typical new-tech ASIC, 600k-1M seems reasonable.

I have been through a couple ASIC design cycles at my last job (longwave data receiver, which is arguably much different than a purely digital ASIC like Avalon's/BFL's). As the company was small, as an engineer I was also part of the budget meetings. It cost roughly 1M to get to our first working ASIC wafer. 400-500k went to development and the engineering runs of chips. First, everything was "simulated" on a mix of FPGA hardware (for the digital side of things) and analog hardware (for signal reception/analog side of things). About 250k went into the first two engineering wafers (first prototype batch, first revision batch), and the remaining amount 250k-ish went into manufacturing 10k chips + verification and validation hardware. Built into these numbers is roughly 1 year of employee salaries (there were roughly 10 of us working on this stuff).

So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).

so can digital ASIC like Avalon be done for much less?

My guess is yes, since the whole of whats inside a digital ASIC can be done fully on an FPGA first (hence less time/effort in producing PCBs to test analog sections). The only difference is that a FPGA would be less efficient than an ASIC would end up being (obviously). But this can all be accurately simulated.

So chop my numbers in half and they start approaching the Avalon pre-order range.

[edit] Ah, so based on what BkkCoins said, he had a little capital from the Icarus project. Add that to preorders cash and previous FPGA bitstreams, and he probably developed the Avalon ASIC for 250k or less.
hero member
Activity: 784
Merit: 1009
firstbits:1MinerQ
Avalon was created by the same guy that made Icarus FPGAs last year. So he had that experience as a starting point. He sold lots and lots of those before discontinuing to start work on the ASIC product. My guess is he had four things:

1. Brains - very smart Chinese electronics engineering student, with access to others with right tools.

2. Lots of profit from Icarus project.

3. Lots of up front money from pre-paid orders.

4. Perhaps additional investors within the sizeable network of people he did good for with Icarus.
member
Activity: 112
Merit: 10
@pizza's OP:

For a typical new-tech ASIC, 600k-1M seems reasonable.

I have been through a couple ASIC design cycles at my last job (longwave data receiver, which is arguably much different than a purely digital ASIC like Avalon's/BFL's). As the company was small, as an engineer I was also part of the budget meetings. It cost roughly 1M to get to our first working ASIC wafer. 400-500k went to development and the engineering runs of chips. First, everything was "simulated" on a mix of FPGA hardware (for the digital side of things) and analog hardware (for signal reception/analog side of things). About 250k went into the first two engineering wafers (first prototype batch, first revision batch), and the remaining amount 250k-ish went into manufacturing 10k chips + verification and validation hardware. Built into these numbers is roughly 1 year of employee salaries (there were roughly 10 of us working on this stuff).

So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).

so can digital ASIC like Avalon be done for much less?
member
Activity: 112
Merit: 10
Avalon raised 300x$1299=$389700 for just prototyping and they made 2 prototypes using those money, I think a large part of this money went to R&D and first wafer of chips

this seems like a very reasonable assumption.
sr. member
Activity: 303
Merit: 250
@pizza's OP:

For a typical new-tech ASIC, 600k-1M seems reasonable.

I have been through a couple ASIC design cycles at my last job (longwave data receiver, which is arguably much different than a purely digital ASIC like Avalon's/BFL's). As the company was small, as an engineer I was also part of the budget meetings. It cost roughly 1M to get to our first working ASIC wafer. 400-500k went to development and the engineering runs of chips. First, everything was "simulated" on a mix of FPGA hardware (for the digital side of things) and analog hardware (for signal reception/analog side of things). About 250k went into the first two engineering wafers (first prototype batch, first revision batch), and the remaining amount 250k-ish went into manufacturing 10k chips + verification and validation hardware. Built into these numbers is roughly 1 year of employee salaries (there were roughly 10 of us working on this stuff).

So yeah TL;DR is 1M total, where 50% is employee costs, 50% is manufacturing costs (including ASIC fab and PCBs and whatnot).
legendary
Activity: 1988
Merit: 1012
Beyond Imagination
Avalon raised 300x$1299=$389700 for just prototyping and they made 2 prototypes using those money, I think a large part of this money went to R&D and first wafer of chips
member
Activity: 112
Merit: 10
it cannt be done.  the chip that bfl is alleging to have made cost millions.  it cannot be done for less.  they raised more than 2 million by selling pre-orders.

What do you mean you just mentioned adding to an existing ASIC can cost 200K, can't Avalon just modify an existing ASIC and create their current product? Because like I said Avalon does not seem like a company that raised millions of dollars lol.
hero member
Activity: 924
Merit: 501
it cannt be done.  the chip that bfl is alleging to have made cost millions.  it cannot be done for less.  they raised more than 2 million by selling pre-orders.
member
Activity: 112
Merit: 10
Well he probably had an initial design in place, developed a platform to verify his idea, and then took the idea to somebody with money. Who wouldn't throw a few million at an Asian guy with a genius idea? Wink

But the cost goes to the manufacturing of the chips themselves, because they have to be designed and manufactured. If you think getting millions of chips fabricated from silicon die is a cheap process, you are sorely mistaken.

Why do you think Engineers make good money? An initial design is the most expensive, and then you alter it 2 or three times until you have a product you can sell, and then you mass-produce it, and sell it for a pretty penny a few hundred thousand to million times.

IC fabrication is a HUGE market, you make them millions at a time.

Even if he raised money I'm sure it wasn't anywhere 1M or the ridiculous sums of money you hear, because if that was true then they would have no need for pre orders, and they would just sell already made units.

I'm not saying he had all of that money. He probably got enough to get started up and produce the first rig, the 'concept' and then started taking pre-orders to further fund the process. However, the fabrication process on its own probably was running very high in costs once he started building all of those rigs, requiring more chips.

I know I'm just speaking with myself lol. It seems very unlikely that he raised anywhere near 1M dollars, nobody is going to fucking invest 1M in a random bitcoin mining machine with BFL plus other competitors on the scene. And again if that kind of money was raised enough would of also been raised to build units, and bypass pre orders, pre orders just shows the lack of money in the project. So the costs seem to be highly exaggerated, probably going by the numbers posted closers to the 200K range. 
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