一家名为Core Scientific的初创企业上周宣布,公司已筹集了2300万美元,用于扩张其加密货币挖矿业务。这家北美比特币采矿公司已在北卡罗莱纳州、佐治亚州和肯塔基州建有加密矿场,并计划在不久后开设更多的分支。
目前,一枚比特币价值约2万美元,数字矿山等同于天然金矿。开采一个比特币区块能够挖出6.25枚比特币,价值约12.5万美元。因此,很容易理解为什么会有这一商业决策。
如果Core Scientific的挖矿业务获得成功,那么公司不仅仅会大赚一笔,而且将帮助重振美国的加密货币行业,而美国也是比特币的诞生地。
加密货币挖矿近期的东山再起听起来像是个喜讯。像Core Scientific这样的挖矿公司可借此赚钱并为农村地区创造就业机会,同时还能确保美国人手中能够掌握更多即将成为一种战略资产的比特币。
然而,我们也有理由对此持谨慎态度。上一次加密货币挖矿热也承诺了类似的福利,但结果是,很多不靠谱的企业爆出了一系列丑闻,并在随后带来了环境问题。这次的结果是否会有什么不一样呢?
数字镐铲交易
开采加密货币与传统采矿业截然不同。这里没有矿石挖掘,也无需搬运,所适用的工具也不是镐和炸药。加密货币挖矿者赖以谋生的行头只有两个:定制设计的计算机芯片和大量的电力。加密货币挖矿作业如下图所示:
为了找到数字金矿,加密货币矿主会利用其计算机与全球其他矿主竞争,看谁先解决复杂的数学问题。解决问题的计算机会通过网络向他人公布解决方案,并借此向区块链增加一个区块,一个防篡改分类账户将为交易提供公共记录。麻烦的是,优胜计算机的所有者会获得“区块奖励”,也就是6.25个比特币(比特币挖矿)外加交易费用。这个流程每10分钟重复一次。
在早期,当人们还可以用家中笔记本挖掘比特币的时候,很大一部分加密货币挖矿业务都集中在美国。然而,随着解决数学问题的计算机算力的提升,中国成为了挖矿作业的主导国。
中国矿主拥有两个优势:容易获得便宜的电力,包括像蒙古这样的地区,以及能够制作所谓矿机(也就是仅用于挖矿用的定制芯片计算机)的本土制造基地。尽管全球也存在着其他挖矿作业,但中国在这一领域依然遥遥领先,以下来自于剑桥另类金融中心的图表便说明了这一点:
如今,一些美国公司认为,他们可以将一部分挖矿业务从中国抢回来。就Core Scientific而言,它已经拿下了5个城市的廉价电力,项目总占地面积超过了600多亩,其中包括佐治亚州的达尔顿市,北卡州的马博市以及肯塔基州的卡尔弗特市。该公司还与中国制造商达成了协议,将最先拿到最新的矿机,并计划开采比特币之外的加密货币,例如莱特币、比特现金、Zcash和以太币。
Core Scientific如今是美国最大的矿主之一,但挖矿业务只是其更宏大计划的一部分。该计划的操控者是一家名为Foundry的机构,Core Scientific刚刚宣布的2300万美元进资便来自于这家机构。Foundry是数字货币集团 (DCG)的子公司,后者是一家不断扩张的企业巨头,其最近宣布将在挖矿领域注资1亿美元。
Foundry首席执行官迈克•科利尔称,提升美国加密货币的产能可实现挖矿矿主的多元化,并借此提振比特币网络。
科利尔说:“只有当比特币遍布全世界而且去中心化时,它才能发挥作用。”科利尔预测美国产比特币的生产份额有望在未来几年内增至25%。
换句话说,美国挖矿公司将帮助确保没有任何矿主财团能够共谋操纵区块链网络。说到共谋,这要求单一实体控制超过50%的区块链网络,这个概率对于比特币来说非常之低,但在小型数字货币领域出现过这种现象。
Foundry的挖矿动议为提振比特币网络带来了希望,当然,也给公司提供了赚钱的机会。同时,它可能也反映了另一个战略必要性:随着市场对比特币需求的增长,更多的公司可能会希望自家也能供应比特币,以促进交易业务。就数字货币集团而言,它拥有一个巨大的消费者比特币业务,而Foundry在这一行业的举措可能会有助于推动垂直整合。
此前在投行巨头富达负责挖矿业务的阿曼达•法比亚诺说:“挖矿是积累比特币的绝佳方式。借助正确的设置,开采比特币可以比购买比特币更省钱。” 阿曼达•法比亚诺如今在加密货币交易公司Galaxy Digital从事同样的业务。
“碳挑战世界”中电力的最佳用途?
为了从不同角度了解北美的比特币挖矿业务,我采访了华盛顿州切兰郡某公用设施总经理史蒂夫•怀特。2017年,也就是上一次比特币热期间,大量挖矿公司都希望利用该郡充足的水电资源,令怀特应接不暇。
怀特回忆说:“有很多公司过来对我们说,‘我们准备干大事。’然后他们就消失了。人们会说,‘我在这里会呆很长一段时间’,结果是连电话都没人接。”
问题还在于,一些鲁莽的运营商会让变压器超负荷运行,引发火灾。与此同时,希望设厂的加密货币矿主要求获得与当地企业一样低的电价。对于怀特来说,如果同意这些,那么公用设施通过向外部市场高价出售其水电资源所赚取的利润就有可能会减少。
怀特还面临着来自于郡居民的反对意见,他们对于在比特币挖矿这类项目上耗费更多的能源是否道德存在疑问。
怀特说:“当你在这个受到碳挑战的世界中拥有绿色能源供应时,人们会问比特币行业是否是能源利用的最佳方式。”怀特的工作职责就包括监管哥伦比亚河上的大坝(如下图所示)。
有关于加密货币挖矿对环保影响的争论不仅限于切兰郡。支付巨头Square最近购买了5000万美元的比特币作为公司资产,它于上周宣布投资1000万美元来支持“比特币清洁能源”动议,并将其作为2030年前碳中和宏伟计划的一部分。
与此同时,其他美国公司正在寻求创新的方式来减少比特币的环境影响。Galaxy Digital的法比亚诺提到了油气行业的三家公司——Crusoe Energy、Great American Mining和Upstream Data,这些公司通过捕捉通常在燃除(页岩钻探井架会烧掉过多的天然气)过程中浪费的能源来为加密货币挖矿提供电力。
所有这一切可能有助于安抚那些将比特币挖矿视为环保灾难的批评人士。然而,像 Core Scientific这样的公司还不得不克服另一个公共关系问题:经营挖矿作业的都是一些诡诈的投机分子,没谁会把当地社区的困境当回事。
这种看法是2017年比特币热所遗留的另一个问题,当时,数字矿主们心里都装着更加宏伟的加密货币社区,秉承其自由、无国界的世界观,而且让全美的很多城镇都加入了这一阵营。最为知名的案例莫过于德州的洛克戴尔。这个小镇成为了《连线》杂志专题报道的主题,该报道讲述了一家中国公司比特大陆曾吹嘘新成立的比特币公司将帮助弥补因美国铝业公司工厂关闭所造成的工作岗位和收入损失。洛克戴尔镇官员以豪华的晚宴来讨好这家挖矿公司的高管,然而,就像切兰郡和其他地方发生的情况一样,这家公司消失的无影无踪。
对于工作岗位来说,加密货币挖矿业务可能会为当地居民提供少量新岗位。然而怀特称,就业机会与最近关闭的铝厂曾经提供的就业机会差不多,这意味着该郡欢迎加密货币公司来此建厂的理由又少了一分。
Foundry首席执行官科利尔认为,加密货币采矿业必须克服深层次的不信任问题。然而他坚持认为,像Core Scientific这样的公司不同于过去那些不靠谱的企业。
他说:“2017年,有很多人都夸下了海口,不把公司当回事,然后恐吓当地政府。其中有很多人都消失了,但留下来的都是合法的。”
然而,即便北美挖矿公司可以克服公众疑虑,但他们仍不得不证明自己能够获得成功,因为这个行业的大多数企业都以失败告终。
对中国芯片的依赖
成功的加密货币挖矿作业要求使用整合特定用途集成电路芯片的新矿机,这种定制的计算机芯片都是用于某种特定用途。就比特币矿机而言,这类芯片是专门针对解决构建区块链的数学问题而设计。
人们不禁会问:如果一家公司可以制造最好的矿机,那么它们为什么不组建自己的比特币挖矿业务,而是出售机器呢?
确实,比特大陆在过去曾面临将二手矿机当新机卖的指控,这类矿机大多由中国的两家公司制造,比特大陆是其中之一。与此同时,公司还是正在进行的集体诉讼的被告。该诉讼称公司不正当地挖掘其客户购买的比特币。
这一指控还未得到证实,而且比特大陆亦对此表示否认。然而,这一局面为Foundry和Core Scientific这样的公司带来了风险,这些公司不仅有自己的挖矿业务,同时还计划向其他公司提供矿机。
Foundry的科利尔称,这类顾虑在过去是有根据的,但加密货币采矿业的日渐发展已经杜绝了中国制造商内部交易的情形。他说,其中一个原因在于制造商意识到,挖矿能力的全球扩散将造福更广泛的比特币经济。
Galaxy Digital的挖矿专家法比亚诺称,该行业在过去已经变得更值得信赖,部分原因在于比特大陆和另一家大型制造商MicroBT之间的激烈竞争。
然而,法比亚诺还表示,供应链问题导致公司难以得到最先进的矿机,这些矿机的价格每台在2600-2800美元之间。她指出,各大公司都从台湾台积电和三星那里购买芯片,而这些公司又有其他数千家客户,其中包括像苹果这样的公司,因此比特币挖矿公司可能就难以成为其优先供货对象。法比亚诺称,结果就成了,新机器可能要到明年7月份才能交付。
从长远来看,Core Scientific预测像台积电这样的芯片制造商可能会在美国设立生产线,从而在美国本土提供挖矿设备所需芯片。然而法比亚诺认为,中国将始终拥有制造方面的优势,而且他对科利尔预测美国挖矿能力将占到全球总能力25%持乐观态度。
总之,就像比特币本身一样,美国加密货币采矿业的发展壮大存在风险而且充满了不确定性。(财富中文网)
译者:冯丰
审校:夏林
一家名为Core Scientific的初创企业上周宣布,公司已筹集了2300万美元,用于扩张其加密货币挖矿业务。这家北美比特币采矿公司已在北卡罗莱纳州、佐治亚州和肯塔基州建有加密矿场,并计划在不久后开设更多的分支。
目前,一枚比特币价值约2万美元,数字矿山等同于天然金矿。开采一个比特币区块能够挖出6.25枚比特币,价值约12.5万美元。因此,很容易理解为什么会有这一商业决策。
如果Core Scientific的挖矿业务获得成功,那么公司不仅仅会大赚一笔,而且将帮助重振美国的加密货币行业,而美国也是比特币的诞生地。
加密货币挖矿近期的东山再起听起来像是个喜讯。像Core Scientific这样的挖矿公司可借此赚钱并为农村地区创造就业机会,同时还能确保美国人手中能够掌握更多即将成为一种战略资产的比特币。
然而,我们也有理由对此持谨慎态度。上一次加密货币挖矿热也承诺了类似的福利,但结果是,很多不靠谱的企业爆出了一系列丑闻,并在随后带来了环境问题。这次的结果是否会有什么不一样呢?
数字镐铲交易
开采加密货币与传统采矿业截然不同。这里没有矿石挖掘,也无需搬运,所适用的工具也不是镐和炸药。加密货币挖矿者赖以谋生的行头只有两个:定制设计的计算机芯片和大量的电力。加密货币挖矿作业如下图所示:
为了找到数字金矿,加密货币矿主会利用其计算机与全球其他矿主竞争,看谁先解决复杂的数学问题。解决问题的计算机会通过网络向他人公布解决方案,并借此向区块链增加一个区块,一个防篡改分类账户将为交易提供公共记录。麻烦的是,优胜计算机的所有者会获得“区块奖励”,也就是6.25个比特币(比特币挖矿)外加交易费用。这个流程每10分钟重复一次。
在早期,当人们还可以用家中笔记本挖掘比特币的时候,很大一部分加密货币挖矿业务都集中在美国。然而,随着解决数学问题的计算机算力的提升,中国成为了挖矿作业的主导国。
中国矿主拥有两个优势:容易获得便宜的电力,包括像蒙古这样的地区,以及能够制作所谓矿机(也就是仅用于挖矿用的定制芯片计算机)的本土制造基地。尽管全球也存在着其他挖矿作业,但中国在这一领域依然遥遥领先,以下来自于剑桥另类金融中心的图表便说明了这一点:
总哈希率月均占比
如今,一些美国公司认为,他们可以将一部分挖矿业务从中国抢回来。就Core Scientific而言,它已经拿下了5个城市的廉价电力,项目总占地面积超过了600多亩,其中包括佐治亚州的达尔顿市,北卡州的马博市以及肯塔基州的卡尔弗特市。该公司还与中国制造商达成了协议,将最先拿到最新的矿机,并计划开采比特币之外的加密货币,例如莱特币、比特现金、Zcash和以太币。
Core Scientific如今是美国最大的矿主之一,但挖矿业务只是其更宏大计划的一部分。该计划的操控者是一家名为Foundry的机构,Core Scientific刚刚宣布的2300万美元进资便来自于这家机构。Foundry是数字货币集团 (DCG)的子公司,后者是一家不断扩张的企业巨头,其最近宣布将在挖矿领域注资1亿美元。
Foundry首席执行官迈克•科利尔称,提升美国加密货币的产能可实现挖矿矿主的多元化,并借此提振比特币网络。
科利尔说:“只有当比特币遍布全世界而且去中心化时,它才能发挥作用。”科利尔预测美国产比特币的生产份额有望在未来几年内增至25%。
换句话说,美国挖矿公司将帮助确保没有任何矿主财团能够共谋操纵区块链网络。说到共谋,这要求单一实体控制超过50%的区块链网络,这个概率对于比特币来说非常之低,但在小型数字货币领域出现过这种现象。
Foundry的挖矿动议为提振比特币网络带来了希望,当然,也给公司提供了赚钱的机会。同时,它可能也反映了另一个战略必要性:随着市场对比特币需求的增长,更多的公司可能会希望自家也能供应比特币,以促进交易业务。就数字货币集团而言,它拥有一个巨大的消费者比特币业务,而Foundry在这一行业的举措可能会有助于推动垂直整合。
此前在投行巨头富达负责挖矿业务的阿曼达•法比亚诺说:“挖矿是积累比特币的绝佳方式。借助正确的设置,开采比特币可以比购买比特币更省钱。” 阿曼达•法比亚诺如今在加密货币交易公司Galaxy Digital从事同样的业务。
“碳挑战世界”中电力的最佳用途?
为了从不同角度了解北美的比特币挖矿业务,我采访了华盛顿州切兰郡某公用设施总经理史蒂夫•怀特。2017年,也就是上一次比特币热期间,大量挖矿公司都希望利用该郡充足的水电资源,令怀特应接不暇。
怀特回忆说:“有很多公司过来对我们说,‘我们准备干大事。’然后他们就消失了。人们会说,‘我在这里会呆很长一段时间’,结果是连电话都没人接。”
问题还在于,一些鲁莽的运营商会让变压器超负荷运行,引发火灾。与此同时,希望设厂的加密货币矿主要求获得与当地企业一样低的电价。对于怀特来说,如果同意这些,那么公用设施通过向外部市场高价出售其水电资源所赚取的利润就有可能会减少。
怀特还面临着来自于郡居民的反对意见,他们对于在比特币挖矿这类项目上耗费更多的能源是否道德存在疑问。
怀特说:“当你在这个受到碳挑战的世界中拥有绿色能源供应时,人们会问比特币行业是否是能源利用的最佳方式。”怀特的工作职责就包括监管哥伦比亚河上的大坝(如下图所示)。
有关于加密货币挖矿对环保影响的争论不仅限于切兰郡。支付巨头Square最近购买了5000万美元的比特币作为公司资产,它于上周宣布投资1000万美元来支持“比特币清洁能源”动议,并将其作为2030年前碳中和宏伟计划的一部分。
与此同时,其他美国公司正在寻求创新的方式来减少比特币的环境影响。Galaxy Digital的法比亚诺提到了油气行业的三家公司——Crusoe Energy、Great American Mining和Upstream Data,这些公司通过捕捉通常在燃除(页岩钻探井架会烧掉过多的天然气)过程中浪费的能源来为加密货币挖矿提供电力。
所有这一切可能有助于安抚那些将比特币挖矿视为环保灾难的批评人士。然而,像 Core Scientific这样的公司还不得不克服另一个公共关系问题:经营挖矿作业的都是一些诡诈的投机分子,没谁会把当地社区的困境当回事。
这种看法是2017年比特币热所遗留的另一个问题,当时,数字矿主们心里都装着更加宏伟的加密货币社区,秉承其自由、无国界的世界观,而且让全美的很多城镇都加入了这一阵营。最为知名的案例莫过于德州的洛克戴尔。这个小镇成为了《连线》杂志专题报道的主题,该报道讲述了一家中国公司比特大陆曾吹嘘新成立的比特币公司将帮助弥补因美国铝业公司工厂关闭所造成的工作岗位和收入损失。洛克戴尔镇官员以豪华的晚宴来讨好这家挖矿公司的高管,然而,就像切兰郡和其他地方发生的情况一样,这家公司消失的无影无踪。
对于工作岗位来说,加密货币挖矿业务可能会为当地居民提供少量新岗位。然而怀特称,就业机会与最近关闭的铝厂曾经提供的就业机会差不多,这意味着该郡欢迎加密货币公司来此建厂的理由又少了一分。
Foundry首席执行官科利尔认为,加密货币采矿业必须克服深层次的不信任问题。然而他坚持认为,像Core Scientific这样的公司不同于过去那些不靠谱的企业。
他说:“2017年,有很多人都夸下了海口,不把公司当回事,然后恐吓当地政府。其中有很多人都消失了,但留下来的都是合法的。”
然而,即便北美挖矿公司可以克服公众疑虑,但他们仍不得不证明自己能够获得成功,因为这个行业的大多数企业都以失败告终。
对中国芯片的依赖
成功的加密货币挖矿作业要求使用整合特定用途集成电路芯片的新矿机,这种定制的计算机芯片都是用于某种特定用途。就比特币矿机而言,这类芯片是专门针对解决构建区块链的数学问题而设计。
人们不禁会问:如果一家公司可以制造最好的矿机,那么它们为什么不组建自己的比特币挖矿业务,而是出售机器呢?
确实,比特大陆在过去曾面临将二手矿机当新机卖的指控,这类矿机大多由中国的两家公司制造,比特大陆是其中之一。与此同时,公司还是正在进行的集体诉讼的被告。该诉讼称公司不正当地挖掘其客户购买的比特币。
这一指控还未得到证实,而且比特大陆亦对此表示否认。然而,这一局面为Foundry和Core Scientific这样的公司带来了风险,这些公司不仅有自己的挖矿业务,同时还计划向其他公司提供矿机。
Foundry的科利尔称,这类顾虑在过去是有根据的,但加密货币采矿业的日渐发展已经杜绝了中国制造商内部交易的情形。他说,其中一个原因在于制造商意识到,挖矿能力的全球扩散将造福更广泛的比特币经济。
Galaxy Digital的挖矿专家法比亚诺称,该行业在过去已经变得更值得信赖,部分原因在于比特大陆和另一家大型制造商MicroBT之间的激烈竞争。
然而,法比亚诺还表示,供应链问题导致公司难以得到最先进的矿机,这些矿机的价格每台在2600-2800美元之间。她指出,各大公司都从台湾台积电和三星那里购买芯片,而这些公司又有其他数千家客户,其中包括像苹果这样的公司,因此比特币挖矿公司可能就难以成为其优先供货对象。法比亚诺称,结果就成了,新机器可能要到明年7月份才能交付。
从长远来看,Core Scientific预测像台积电这样的芯片制造商可能会在美国设立生产线,从而在美国本土提供挖矿设备所需芯片。然而法比亚诺认为,中国将始终拥有制造方面的优势,而且他对科利尔预测美国挖矿能力将占到全球总能力25%持乐观态度。
总之,就像比特币本身一样,美国加密货币采矿业的发展壮大存在风险而且充满了不确定性。(财富中文网)
译者:冯丰
审校:夏林
A startup called Core Scientific announced this week that it has raised $23 million to expand its cryptocurrency mining operations. The company, based in Bellevue, Wash., is already running crypto mines in North Carolina, Georgia, and Kentucky, and plans to open more before long.
It’s not hard to understand why. Right now, a single Bitcoin—the digital mining equivalent of a gold nugget—is worth around $20,000. Mining a single Bitcoin block brings a reward of 6.25 of them, or about $125,000.
If Core Scientific’s mining ventures are successful, the company will not just make a lot of money. It will also help to repatriate crypto production to the United States, where Bitcoin got its start.
The recent resurgence in crypto mining feels like a good-news story. Mining companies like Core Scientific are in a position to make money and create jobs in rural areas, while also ensuring more Bitcoin—which is becoming a strategic asset—ends up in American hands.
But there are also reasons for caution. The last crypto-mining boom promised similar benefits but resulted in fly-by-night companies leaving a trail of scams and environmental degradation in their wake. Will the outcome be any different this time?
Digital picks and shovels
Mining cryptocurrency is different from conventional mining in some obvious ways. There’s no excavating and hauling ore. And the tools of the trade are not pickaxes and dynamite. Instead, crypto miners rely on two things to make a living: custom-designed computer chips and a torrent of electricity. A crypto-mining operation looks like this:
In order to find a digital nugget, crypto miners pit their computers against others around the world in a race to solve complex math problems. The computer that solves the problem broadcasts the solution to others on the network and, in doing so, adds a block to the blockchain—a tamperproof ledger that serves as a public record of transactions. For their trouble, the owner of the winning computer pockets the “block reward,” which is 6.25 Bitcoins in the case of Bitcoin plus transaction fees. The process is repeated every 10 minutes or so.
In the early days, when it was still viable to mine Bitcoin with a home laptop, a large proportion of crypto mining took place in the U.S. But as the computer power needed to solve the math problems increased, Chinese mining operations came to dominate.
The Chinese miners enjoyed two advantages: easy access to cheap power, including in places like Mongolia, and a domestic manufacturing base capable of cranking out so-called mining rigs—computers with custom chips made just for mining. While there are other mining operations around the globe, China remains far and away the leader, as can be seen in this chart from the Cambridge Centre for Alternative Finance:
Now, some U.S. companies believe they can wrest some of the mining pie back from China. In the case of Core Scientific, it has struck arrangements for cheap power across five sites, spanning over 100 acres in total, in Dalton, Ga., Marble, N.C., and Calvert City, Ky. The firm has also cut deals with Chinese manufacturers to get first dibs on the newest mining rigs, and plans to mine not just Bitcoin but so-called alt coins like Litecoin, Bitcoin Cash, Zcash, and Ethereum.
Core Scientific is now one of the biggest U.S. miners, but its operations are part of a still larger plan. That plan is being steered by an outfit called Foundry, which is behind the just announced $23 million investment in Core Scientific. Foundry is a subsidiary of Digital Currency Group (DCG), a sprawling crypto conglomerate that recently announced it would spend $100 million on mining initiatives.
According to Foundry CEO Mike Colyer, boosting crypto production in the U.S. will serve to strengthen Bitcoin’s network by diversifying the miners who maintain it.
“The only way Bitcoin works is when it’s distributed through the world and when it’s decentralized,” says Colyer, who predicts the share of U.S.-produced Bitcoin could rise to 25% in the next few years.
Put another way, the U.S. mining ventures will help ensure that no consortium of miners can collude to manipulate the blockchain network. Such collusion requires a single entity to control over 50% of the network—a risk that is is remote in the case of Bitcoin, but which has transpired in the case of smaller digital currencies.
Foundry’s mining initiatives offer the promise of strengthening Bitcoin’s network—and, of course, giving the company a chance to make money—but may also reflect another strategic imperative. Namely, as demand for Bitcoin increases in the market, more companies may wish to have a private supply of it to facilitate trading operations. In the case of DCG, which has a giant consumer Bitcoin business, Foundry’s ventures may help facilitate vertical integration.
“Mining is a great way to accumulate Bitcoin. With the correct setup, you can mine it cheaper than you can buy it,” says Amanda Fabiano, who formerly oversaw mining operations at investment giant Fidelity and now does the same for crypto-trading firm Galaxy Digital.
The best use of power in a “carbon-challenged world”?
To get a different perspective on Bitcoin mining in North America, I spoke to Steve Wright, the general manager of a public utility in Chelan County, Wash. During the last big Bitcoin boom in 2017, Wright had to contend with a crush of mining companies asking to tap into the county’s ample hydroelectric resources.
“We had a lot of companies come in and say, ‘We’re going to do great things,’ and then they would be gone from the face of the earth,” Wright recalls. “People would say, ‘We’re here for long term,’ and then nobody would pick up the phone.”
Problems also came in the form of reckless operators who overloaded transformers, triggering fires. Meanwhile, the crypto miners who wanted to set up shop demanded the low electricity rates available to locals. For Wright, agreeing to those demands risked undercutting the profits the utility earned from selling its hydropower at higher rates to outside markets.
Wright also faced pushback from county residents who questioned whether it was ethical to expend energy on something like Bitcoin mining.
“When you have a green supply of power and you have a carbon-challenged world, people were asking if this is the best use of that power,” said Wright, whose job involves overseeing Columbia River dams like the one below.
The debate over the environmental impact of crypto mining is not restricted to Chelan County. The payment giant Square, which recently bought $50 million of Bitcoin for its corporate treasury, announced a $10 million pledge this week to support a “Bitcoin Clean Energy” initiative as part of a larger plan to become carbon neutral by 2030.
Meanwhile, other U.S. companies are finding creative ways to reduce Bitcoin’s environmental impact. Fabiano of Galaxy Digital pointed to three firms in the oil-and-gas field—Crusoe Energy, Great American Mining, and Upstream Data—that are capturing the energy typically wasted through flaring (when shale drilling rigs burn off excess natural gas) to power crypto mining.
All of this may help assuage critics who view Bitcoin mining as an environmental disaster. But firms like Core Scientific also have to overcome another public relations problem: that mining operations are run by shifty carpetbaggers who will leave local communities in the lurch.
This perception is another legacy of the 2017 Bitcoin boom when digital miners—who typically share the libertarian, borderless worldview of the larger crypto community—took towns across the country for a ride. The most famous example is Rockdale, Texas. The town became the subject of a Wired magazine feature about how a Chinese firm, Bitmain, touted a new Bitcoin venture that would help replace jobs and revenue that had been lost when an Alcoa plant closed. Rockdale town officials put on lavish dinners to make the mining executives feel welcome but, as happened in Chelan County and elsewhere, they vanished into the night.
As for jobs, cryptocurrency mining operations may provide a handful of new positions for local residents. But Wright says the employment opportunities are nothing like what a recently closed aluminum plant used to provide—meaning his county has less reason to roll out a welcome mat for crypto companies.
Colyer, the Foundry CEO, acknowledges the crypto-mining industry must overcome deep levels of mistrust. But he insists ventures like Core Scientific are a different breed from past fly-by-night operations.
“In 2017, there were lots of people making huge promises, running around the company, and scaring local governments. A lot of those people have disappeared, and the companies that are left are legitimate,” he says.
But even if the North American mining companies can overcome public skepticism, they will also have to prove they can succeed in a venture that has mostly been defined by failure.
Relying on Chinese chips
A successful crypto-mining operation requires the use of new machines built with ASIC chips—a type of computer chip custom-built for a specific purpose. In the case of Bitcoin mining rigs, the chips are specially designed to crunch the math problems that build the blockchain.
This raises an obvious question: If a company can manufacture the best mining rigs, why would it sell them rather than set up a Bitcoin-mining operation of its own?
And indeed Bitmain, one of the two Chinese companies that makes most of the machines, has faced past accusations of passing off used mining rigs as new. Meanwhile, the company is the subject of an ongoing class action lawsuit that claims it surreptitiously mined Bitcoins purchased by its customers.
The allegations are unproven, and Bitmain denies wrongdoing. But the situation appears to pose a risk for the likes of Foundry and Core Scientific, which are not only undertaking their own mining operations but plan to supply machines to other companies.
Colyer of Foundry says that such concerns were valid in the past but that the mining industry has evolved to eliminate self-dealing by the Chinese manufacturers. One reason, he says, is that the manufacturers have come to recognize that distributing mining power across the globe benefits the broader Bitcoin economy.
Fabiano, the mining expert with Galaxy Digital, says the industry has become more trustworthy in part because there is now intense competition between Bitmain and the other big manufacturer, MicroBT.
But Fabiano adds that accessing state-of-the-art mining rigs, which can cost between $2,600 and $2,800 apiece, has become difficult as a result of supply chain issues. She notes that the companies obtain their chips from Taiwan-based TSMC and Samsung, and that those companies have hundreds of other clients—including the likes of Apple—that may receive priority over Bitcoin companies. The upshot, says Fabiano, is that new machines may not be available until next July.
In the long term, Core Scientific executives predict that chipmakers like TSMC may set up production in the U.S. and provide a domestic source of mining equipment. But Fabiano suggests that China will always have the manufacturing edge and that Colyer’s prediction of the U.S. obtaining a 25% share of mining capacity is optimistic.
The bottom line is that aspirations for a booming crypto-mining industry in the U.S. is risky and fraught with uncertainty—much like Bitcoin itself.