在当今数字经济的浪潮中,比特币是备受关注的加密货币之一。然而,你是否曾好奇过比特币最初是如何产生的?比特币的诞生和挖矿过程常常令人着迷。
In today’s wave of digital economies, bitcoin is one of the most interesting encoded currencies. Have you ever wondered, however, how bitcoin was created in the first place? Bitcoin’s birth and mining are often fascinating.
在2009年,比特币随着一篇神秘的论文《比特币:一种点对点电子现金系统》而诞生。这篇论文的作者使用了一个化名,名叫中本聪。至今,中本聪的真实身份依然成为了一个谜。然而,正是在这篇论文中,比特币的挖矿过程被首次提及。
In 2009, Bitcoin was born with a mysterious paper, Bitcoin: A Point-to-Point Electronic Cash System. The author of this paper used an alias called Chinabone. To date, the true identity of Chinabone remains a mystery. And yet, it was in this paper that Bitcoin's mining process was first mentioned.
比特币挖矿是通过使用计算机解决复杂数学问题来获取新的比特币。这些问题旨在保证比特币网络的安全性和稳定性。挖矿过程被设计成高度计算密集型,这意味着参与者需要大量的计算能力来解决这些问题。
Bitcoin digs to obtain new bitcoins by using computers to solve complex mathematical problems. These problems are designed to ensure the safety and stability of the Bitcoin network. The mining process is designed to be highly computing-intensive, which means that participants need a great deal of computing capacity to solve these problems.
数字货币比特币网络中的创世区数字货币块(即第一个区块)是在挖矿过程中产生的。创世区块中包含了比特币网络的重要信息,同时也附带着一个奖励。在比特币最初阶段,挖矿者可以通过解决数学问题来添加新的区块到区块链中,并获得50个比特币的奖励。
The digital currency of the Bitcoin network (the first block) was created during the mining process. The creation block contained important information about the Bitcoin network, accompanied by an incentive. In the initial phase of Bitcoin, miners could add new blocks to the block chain by solving mathematical problems and receiving 50 bitcoins.
为了保持每天产生的比特币数量稳定,比特币协议设定了一个激励机制。每210,000个区块,挖矿奖励就会减半一次。这意味着挖矿者需要更多的计算能力来获取相同数量的比特币。此外,比特币协议会根据网络中的挖矿算力自动调整解决问题的难度,以保持每个区块大约10分钟产生一次的规律。
In order to keep the amount of bitcoins generated every day stable, the Bitcoin agreement provides an incentive. For every 210,000 blocks, the incentive to dig is halved. This means that diggers need more computing to get the same amount of bitcoins.
在比特币早期,参与挖矿的人主要使用计算机的中央处理器(CPU)。然而,由于CPU的计算能力有限,比特币的挖矿很快就超过了它们的处理能力。于是,人们转而使用图形处理器(GPU)来提高计算能力。这样的切换使得挖矿者能够更高效地解决复杂的数学问题。
In the early days of Bitcoin, those involved in mining mainly used computer-based central processors (CPUs). However, because of CPU's limited computing capacity, Bitcoins quickly outperformed their processing capacity. So, people switched to graphic processors (GPUs) to improve computing.
然而,随着时间的推移,比特币网络变得越来越庞大,挖矿所需的计算能力也在不断增加。为了满足挖矿需求,专门为加密货币挖矿设计的应用特定集成电路(ASIC)开始流行起来。这些定制化的芯片能够以比CPU和GPU更高效的方式解决问题,从而使挖矿者能够更快地获取比特币。
However, over time, the Bitcoin network has grown larger, and the computing capacity required for mining has increased. In order to meet the demand for mining, the application of specific integrated circuits (ASICs), designed specifically for encrypt currency mining, has become popular.
比特币的诞生和挖矿过程标志着一种新的数字货币时代的开始。通过不断解决复杂的数学问题,挖矿者可以获取新的比特币,并为比特币网络的安全运行做出贡献。
The birth of Bitcoin and the mining process marked the beginning of a new era of digital money. By constantly solving complex mathematical problems, miners can acquire new bitcoins and contribute to the safe operation of the Bitcoin network.
如今,比特币的价值与日俱增,随着更多人参与挖矿,竞争也变得更加激烈。然而,比特币的设计使其具有稀缺性,并且挖矿的奖励将会逐渐减少,这可能会为比特币的价值带来长期支撑。
Today, the value of Bitcoin is increasing, and competition is becoming more intense as more people are involved in mining. However, Bitcoin is designed to make it scarce, and incentives for mining will gradually decrease, which could provide long-term support for Bitcoin’s value.
正如比特币的创始人中本聪所预见的那样,比特币已经改变了金融世界的格局,它继续在数字经济领域展现出无限的潜力与魅力。
Bitcoin has changed the shape of the financial world and continues to display unlimited potential and charisma in the digital economy, as was foreseen by Bennett, the founder of Bitcoin.
注册有任何问题请添加 微信:MVIP619 拉你进入群
打开微信扫一扫
添加客服
进入交流群
发表评论