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Topic: Bitcoin and the ASIC Conundrum - page 2. (Read 14589 times)

sr. member
Activity: 252
Merit: 250
Inactive
August 22, 2012, 10:03:49 AM
#14
One of the mechanisms of pools is to assign lower difficulty work, in relation to the actual difficulty e.g. 2.2m, to it's miners.  That is essentially why mining in a pool incurs less variance.

The pool operators can increase the share difficulty assigned to miners thus reducing the bandwidth requirement.  EMC pool is already testing increased difficulty shares.

Hmm...wouldn't there be tons more stale shares as difficulty per miner increased, not to mention the new theoretical speeds we'll be mining at? Or am I thinking about this the wrong way...


Yes, you are thinking correctly.  The significance of increased stale shares depends on the individual miner's hashrate compared to share difficulty. 

I have yet to see a comprehensive study of stales at varying difficulty.  Though, it has been said that difficulty of 5 performs well for BFL mini rigs.
legendary
Activity: 1064
Merit: 1001
August 22, 2012, 09:02:42 AM
#13
One of the mechanisms of pools is to assign lower difficulty work, in relation to the actual difficulty e.g. 2.2m, to it's miners.  That is essentially why mining in a pool incurs less variance.

The pool operators can increase the share difficulty assigned to miners thus reducing the bandwidth requirement.  EMC pool is already testing increased difficulty shares.

Hmm...wouldn't there be tons more stale shares as difficulty per miner increased, not to mention the new theoretical speeds we'll be mining at? Or am I thinking about this the wrong way...
sr. member
Activity: 252
Merit: 250
Inactive
August 21, 2012, 03:08:48 PM
#12
I am also worried about the massive increase in power bringing pools down.  Eclipse, which I'm a member of, is already having load issues.  If hashing power goes up exponentially, it will kill the pool.

Ah, good point. I didn't even consider bandwidth.

Does anybody know how much bandwidth it takes to run a good sized pool (400-500GH/s) as is?

I've been pondering this..  Everyone is saying ASICs are going to cause even more centralization of mining... I'm thinking just the oposite..  Not only is a 10-fold increase in hash rate going to play havoc on the pools, but even on the miner side, it will not be pretty.  At approx 10 Ghash, I'm running a constant 30 Kbps.  Currently my ISP still considers that residential..  However, up that 10x to 300, and I'm not so sure..  and that just gets to 100 Ghash.. Once you get to the Thash level, you are talking constant megabit traffic.  At this point, bandwidth is no longer not-insignificant. Serious miners will to have to decide:  Stay in the mining pools for no-variance VS. Going back to mining on your own to save bandwidth.

Sigg


One of the mechanisms of pools is to assign lower difficulty work, in relation to the actual difficulty e.g. 2.2m, to it's miners.  That is essentially why mining in a pool incurs less variance.

The pool operators can increase the share difficulty assigned to miners thus reducing the bandwidth requirement.  EMC pool is already testing increased difficulty shares.

sr. member
Activity: 381
Merit: 250
August 21, 2012, 03:00:40 PM
#11
I am also worried about the massive increase in power bringing pools down.  Eclipse, which I'm a member of, is already having load issues.  If hashing power goes up exponentially, it will kill the pool.

Ah, good point. I didn't even consider bandwidth.

Does anybody know how much bandwidth it takes to run a good sized pool (400-500GH/s) as is?

I've been pondering this..  Everyone is saying ASICs are going to cause even more centralization of mining... I'm thinking just the oposite..  Not only is a 10-fold increase in hash rate going to play havoc on the pools, but even on the miner side, it will not be pretty.  At approx 10 Ghash, I'm running a constant 30 Kbps.  Currently my ISP still considers that residential..  However, up that 10x to 300, and I'm not so sure..  and that just gets to 100 Ghash.. Once you get to the Thash level, you are talking constant megabit traffic.  At this point, bandwidth is no longer not-insignificant. Serious miners will to have to decide:  Stay in the mining pools for no-variance VS. Going back to mining on your own to save bandwidth.

Sigg
legendary
Activity: 1064
Merit: 1001
August 21, 2012, 12:33:58 PM
#10
I am also worried about the massive increase in power bringing pools down.  Eclipse, which I'm a member of, is already having load issues.  If hashing power goes up exponentially, it will kill the pool.

Ah, good point. I didn't even consider bandwidth.

Does anybody know how much bandwidth it takes to run a good sized pool (400-500GH/s) as is?
sr. member
Activity: 240
Merit: 250
August 21, 2012, 12:24:31 PM
#9
I am also worried about the massive increase in power bringing pools down.  Eclipse, which I'm a member of, is already having load issues.  If hashing power goes up exponentially, it will kill the pool.
legendary
Activity: 1064
Merit: 1001
August 21, 2012, 12:17:25 PM
#8
Release of the first generation ASIC's isn't the endgame for the network hash-rate and difficulty as according to Moore's Law ASIC speeds should double every eighteen months.

I didn't specify a generation Wink
legendary
Activity: 1372
Merit: 1003
August 21, 2012, 12:07:50 PM
#7
Release of the first generation ASIC's isn't the endgame for the network hash-rate and difficulty as according to Moore's Law ASIC speeds should double every eighteen months.
legendary
Activity: 1064
Merit: 1001
August 21, 2012, 11:49:25 AM
#6
While the price will/can/could likely increase due to decreased availability but constant demand, too sharp of an increase will/can/could have a profoundly bad impact on mining as a whole as miners make purchases based on a ROI that is irrational. I tend to think there are a reasonable amount of people that don't mine and have purchased quite a bit of Bitcoin that they intend to sell once ASIC comes out (buy on hype, release on news) and then become miners themselves.

I also tend to think there's another ASIC player waiting for BFL to complete/finish and start selling their products so the competitor can immediately jump in and undercut their prices. And I think this competitor may have been ready to do this for the last year or so.

That's actually a very good point. I imagine that there are loads of people placing bets on ASIC in the Exchanges, who will probably join the mining game once they make it big.

And, like you, I suspect BFL won't have a monopoly over quality ASIC devices for mining...but I couldn't really find any thorough information to make a good guess about the competition or pricing, so I figured I'd just work with the numbers I knew.

Still, you've got a lot of good points made, but you may want to account for some of the statistical analysis that has already been done based on BFL ASIC order numbers putting the increase at closer to 300 TH/s.

See that's the thing, I was thinking about this while writing everything up yesterday. The way I thought about it, the big miners out there are already in the midst of making their purchases / trade-ins for the Rigs. Last that was posted, only 19 Rigs have been purchased out of my "54" predicted so far. The same thought goes toward Singles.

Let's call 142TH/s "low balling" it for now. I'm not sure it'll hit 300 right away (maybe over 12 months or so), but 200 is definitely within reason.
And at 200TH/s, mining is still profitable, but takes about 8 months to break even instead of 6.25...still not too shabby if you've got the financial backing and time.
hero member
Activity: 535
Merit: 500
August 21, 2012, 11:36:21 AM
#5
My question is... How easy will it be for someone to attempt a 51% attack using these? As difficulty goes up, the reward rate and therefore number of miners goes down, won't this be a serious problem?

It is very profitable to mine right now (ROI of ~year or less).
Sure, very profitable with YEAR roi.
 
donator
Activity: 1419
Merit: 1015
August 21, 2012, 11:30:15 AM
#4
My question is... How easy will it be for someone to attempt a 51% attack using these? As difficulty goes up, the reward rate and therefore number of miners goes down, won't this be a serious problem?

It is very profitable to mine right now (ROI of ~year or less). After the block reward halving, it will still be profitable, even at present prices. The only places where it won't be will be expensive electricity locations in Europe with GPUs.
legendary
Activity: 817
Merit: 1000
August 21, 2012, 11:25:19 AM
#3
My question is... How easy will it be for someone to attempt a 51% attack using these? As difficulty goes up, the reward rate and therefore number of miners goes down, won't this be a serious problem?
donator
Activity: 1419
Merit: 1015
August 21, 2012, 11:24:33 AM
#2
While the price will/can/could likely increase due to decreased availability but constant demand, too sharp of an increase will/can/could have a profoundly bad impact on mining as a whole as miners make purchases based on a ROI that is irrational. I tend to think there are a reasonable amount of people that don't mine and have purchased quite a bit of Bitcoin that they intend to sell once ASIC comes out (buy on hype, release on news) and then become miners themselves.

I also tend to think there's another ASIC player waiting for BFL to complete/finish and start selling their products so the competitor can immediately jump in and undercut their prices. And I think this competitor may have been ready to do this for the last year or so.

Still, you've got a lot of good points made, but you may want to account for some of the statistical analysis that has already been done based on BFL ASIC order numbers putting the increase at closer to 300 TH/s.
legendary
Activity: 1064
Merit: 1001
August 21, 2012, 11:10:50 AM
#1
NEW EDIT: Updated my paper to reflect data gathered on January 10th, 2013. You can read my new January Analysis here. The "TL;DR" version is that I increased my minimum from 217TH/s to 260TH/s, with a 12 month cap between 400-500TH/s.


OLD EDIT: Updated my paper to reflect all the new information that's come to light within the past 2 months. As a result, you can read my new October Analysis here. The "TL;DR" version is that I increased my minimum from 147TH/s to 217TH/s, with a 12 month cap between 350-400TH/s.


Over the past day or so, I've been digging into ASIC and what it might mean for Bitcoin and the community. Presented below is a small essay I wrote that sort of sums up my ideas...it was helpful to put words on paper to get a visual aspect on the situation.

Let me know what you guys think, what you'd like to add or change, and anything else. Discuss it! I'm happy to see counterpoints!




As many people know, Butterfly Labs Inc. has been producing custom field-programmable gate arrays (FPGA) specifically designed for the mining of Bitcoins.

The time is coming, however, when they are to be replaced by application-specific integrated circuits (ASIC), which is largely considered to be not only the next iteration in mining technology, but also the final frontier in hashing power before going Quantum.

At first glance, the idea is astounding; eye-opening, to say the least. Mining first began on the CPU, barely breaking into 1 Megahash (1 million hashes) per second (MH/s). Then came the introduction of the GPU and the surprising power that it holds, making Gigahashes per second (GH/s) a reality instead of a dream. And in recent months we’ve seen the push into FPGAs, thrusting us from 1-2GH/s into ranges 5 or more times that.

And we seem surprised that the next transition is to the upper echelons of GH/s and even the breakthrough to Terahashes per second (TH/s). That’s one TRILLION SHA-256 hashes per second. For a year, it seemed only large mining pools had the capability to break this barrier. Now we’re presented with the news that we can own this power on our own.

But is this too much power? How will the Bitcoin network react to such a drastic increase in speed? How will users react? What about the Exchanges and secondary markets?

It’s extremely hard to answer these questions, and as a result all we can do is speculate. Looking toward the past won’t be much of an indicator given the incredible volatility. And we all know looking to the future is nothing more than a best guess.

With a little digging, however, we can unearth some of these best guesses and see where it leads us.


Mining Pools and Their Top Hashers:
At the time of writing, the network hash rate sits at about 20 TH/s (varying by ±2TH/s every so often) and difficulty is 2190866 (set to increase 10.3% to 2416087 soon).

How are we managing to pull off 20TH/s? The top 5 mining pools account for approximately 60% of all hashing power. These pools are:
DeepBit at around 3.7TH/s
EclipseMC -- 2.2TH/s
50BTC -- 2.1TH/s
BTCGuild -- 2.1TH/s
Slush -- 1.5TH/s

NOTE: These rankings change all the time as workers come and go, stop and start. This information was obtained from: http://bitcoincharts.com/bitcoin/

I went through each of these pools trying to get an idea of who contributed the most. I wanted to see if I could figure out (or at least make an educational guess) what percent of miners were really behind the network hash rates we keep seeing fluctuate. To meet the ‘top tier’ requirements in my mind, the miner must be going at a minimum of 4GH/s (though I settle for 3.5GH/s).

DeepBit
There are roughly 7,200 (±500) workers associated with the various teams at DeepBit. 5,800 of these workers were situated in the top 45 teams (out of 750 or so), with the top team having over 1,200 workers alone.
When tallied up, these 45 teams (6% of the total) contributed 1.6TH/s out of the total 3.7TH/s (43%). In each team, roughly the top 3% controlled 70% (±5%) of all hashing power for that team.
TL;DR: 5,800 workers in the top tier of the pool, and 174 of them control 1.12TH/s of power (30% of total pool hash rate).

EclipseMC
Around 1,500 workers seemed to stay constant while I did my research. Out of these workers, the top 40 hashers made up 858GH/s. A nice 39% of the total pool’s rate of 2.2TH/s, yet only 2.6% of all 1,500 workers.

50BTC
A bit more difficult to determine total workers, but my calculations put it around 2,700 (±200). The top 20 (!!) hold 829GH/s of power, compared to the total pool rate of 2.1TH/s. In this case, we’re looking at 0.7% of workers contributing 40% of the pool’s power.

BTCGuild
This pool was nearly impossible to find statistics for. Given their total hash rate of 2.1TH/s, I’m giving my best guess that they have around 2000-2500 workers, so I’ll say 2250 in this case (though please correct me if anybody has a more accurate number). Their top 50 miners (2.2% of total) still manage to contribute 709GH/s, or 34% of total power.

Slush
Lastly we find ourselves with the immensely variable BitcoinCZ Mining (also known as Slush), which I’ve seen go around 1.2 to 1.7TH/s throughout today. For easier calculations, we’re going to assume 1.5TH/s is relatively accurate.
Although they have a reported 7,700 workers, they don’t have any solid information on top contributing workers or such statistical data.
However, we can average the other 4 pools “top tier” percentages, which comes out to 39%. Meaning, the top 3% of miners (230 here) contribute 585GH/s (or 39% of the total 1.5TH/s).


When condensed, we find that the top 5 mining pools contribute 11.6TH/s (though let’s round to 12TH/s) out of the total network rate of 20TH/s. Out of this 12TH/s, the top 3% of miners work to an astounding rate of 4.5TH/s, nearly 38% of all power.

DON’T FORGET -- These numbers are purely educational guesses based off of data I gathered over the course of 12 hours (or so) on August 20th, 2012. This WILL change over time...probably will be obsolete by next week Tongue


The Network
The thinking goes, if you can get an idea for the top miners, you can get an idea of who will be controlling the network when ASIC mining hits full throttle.

As I noted before, I only touched on the top 5 pools, which was roughly 60% of the total network. So let’s work out some math:
Added together, the top pools are supporting approximately 21,350 workers. At 60%, this would mean the total network is working with around 35,500 workers (I suppose ±2000 at this point).

With the averages above, we’re looking at the top 3% of miners to see how many actually contribute in any substantial manner. At 3%...
DeepBit contributes 216 miners
EclipseMC -- 40
50BTC -- 80
BTCGuild -- 70
Slush -- 230
...for a nice total of 636 ‘top tier’ workers. Added up, these 636 contribute a solid 23% of all network hashes.

If you look toward the network as a whole, the top 3% comes out to about 1065 (out of the total 35500). The theory is...if you’ve invested this much time, effort, and money into achieving the status of “97th percentile”, then the chances are that making the switch to ASIC devices won’t require much thought.


Speculation and My Incoherent Ramblings
Welcome to the final section of my research, where even educational guesses can’t predict the mercuriality of Bitcoin and the future of the network.

Yet I still feel compelled to try because the biggest question is still on my mind; Will Bitcoin still be profitable?
Yes! I mean, no. Maybe? Hopefully?

Let’s hash it out and see where we end up. Let’s assume my previous math was correct, my numbers are solid, and the percentage of top miners was accurate.

When the transition to ASIC devices is fully underway, I entirely expect to see a substantial drop in casual mining (workers going at around 300MH/s and under), which essentially accounts for about 60% of total workers (no math here, just pulled that number out of my ass to suit my idea of “best guess”).
If the top 3% (1,065 workers) are equipped with substantial GPU and FPGA setups, I can only presume they’re going to be the ones purchasing BFL SC Singles and “Mini-Rigs”. This leaves 34,435 “casual miners” with standard GPUs.

But not all 1,065 workers will be making the BIG purchase to get a Rig. My thoughts for that reside within the Top 5% of this tier, or about 54 workers. So here’s how it looks to me so far:
Normal   34,435
Singles   1,011
Rigs          54


When the transition is made and underway, invested users will stay by purchasing BFL SC ‘Jalapeno’ devices (for the most part, GPU mining is now obsolete). Upon losing 60% of normal workers because they can’t compete with high GH/s and TH/s, we end up looking like:
Normal   13,774
Singles   1,011
Rigs          54


This would mean a vast increase in hashing power and difficulty.
Jalapenos   13,774   3.5GH/s   48,209GH/s   
Singles       1,011    40GH/s    40,440GH/s   
Rigs           54       1000GH/s  54,000GH/s
                                         142.65TH/s Tot.


That’s right, 142.65TH/s. A 7-fold increase in hashing power, accompanied by an equal increase in difficulty to approximately 15,336,055.

And to top it off, we see the reward split to 25BTC per block coming up.

1. Buy Rigs, 2. Huh, 3. Profit
Each BFL SC “Mini-Rig” goes for a flabbergasting $30,274 ($29,899 + $348 Shipping).
With the new difficulty and reward split, the Bitcoin Mining Calculator shows an income of about 1,000 bitcoins per month. And I like to assume that Bitcoins are worth something around $5 (since that was when it was stable for the longest, though I’m willing to entertain the idea that the price will double to $10 during the reward split).

If the Rig pulls down 1,500 watts, you’re looking at a usage of around 1,080KwH. In my area, at $0.147 per KwH this would be more or less $160 a month.

So $5,000 - $160 = $4,840 per month profit. Also known as a 6.25 month payback period, which is an extraordinary time (in a good way, I was expecting longer when I did my calculations).

Feasible? Seems that way. Practical? Not too shabby if you’ve got the money. Profitable? Eventually.

But if anything...nothing will change. The top miners will stay in their upper percentile as the majority of us fall to the wayside or buy up singles and Jalapenos to make up for our now lacking GPUs. It completes the cycle from MH/s to GH/s and moves us further into the world of Bitcoins. There will be turbulence to begin with of course, but when the market and network stabilize I imagine nothing will appear different.

Then again, I suppose that’s just wishful thinking Smiley



Here's a link to my original paper:
https://docs.google.com/document/d/1L8hKZinune9Cc7tWY9Pmx8J17BOxor7QNQAV03xROOc/edit
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