The iconic first-person shooter game Doom has surpassed traditional platforms and made it onto blockchain networks like Bitcoin and Dogecoin.
标志性的第一人称射击游戏《毁灭战士》已经超越了传统平台,进入了比特币和狗狗币等区块链网络。
Using protocols like Ordinals, enthusiasts have inscribed simplified versions of Doom on the Bitcoin (BTC) network.
使用 Ordinals 等协议,爱好者们在比特币 (BTC) 网络上刻下了 Doom 的简化版本。
Ordinals refer to a relatively recent innovation that allows for the inscription of additional data directly onto individual satoshis, the smallest unit of Bitcoin.
序号是指一项相对较新的创新,它允许将附加数据直接刻录到单个聪(比特币的最小单位)上。
This concept has garnered attention for introducing a way to attach unique, non-fungible properties to specific satoshis, similar in spirit to NFTs on other blockchain platforms like Ethereum.
这一概念因引入一种将独特的、不可替代的属性附加到特定聪的方法而引起了人们的关注,其精神类似于以太坊等其他区块链平台上的 NFT。
Furthermore, the recent integration of Doginals, a Dogecoin (DOGE) version of Ordinals, allows for the full version of Doom to be played directly through a web browser.
此外,最近集成了 Doginals(Ordinals 的狗狗币 (DOGE) 版本),允许直接通过网络浏览器播放完整版本的 Doom。
Ð is for Dogecoin!
Ð 代表狗狗币!
Ð is for Doginals!
Ð 代表狗狗!
Ð is for DOOM on Dogecoin!
Ð 代表狗狗币上的《DOOM》!
Now inscribed on Dogecoin blockchain forever!
现在永远铭刻在狗狗币区块链上!
Play it now on-chain: https://t.co/Xhfqyktva5 or click on the "content" link for full screen with mouse support and mobile support!
立即在链上播放:https://t.co/Xhfqyktva5 或单击“内容”链接以全屏显示,并支持鼠标和移动设备!
This game redefined… https://t.co/ysChvCSyrb pic.twitter.com/GWxZKQUfEe
这个游戏重新定义了...... https://t.co/ysChvCSyrb pic.twitter.com/GWxZKQUfEe
— Mini Doge (@minidogeart) January 22, 2024
— 迷你狗狗 (@minidogeart) 2024 年 1 月 22 日
Doom Could Run Using E. Coli Bacteria
《毁灭战士》可以使用大肠杆菌来运行
A recent student study from the Massachusetts Institute of Technology (MIT) suggests that Doom could even run using E. coli bacteria, aside from blockchain networks like Bitcoin and Dogecoin.
麻省理工学院 (MIT) 最近的一项学生研究表明,除了比特币和狗狗币等区块链网络之外,《毁灭战士》甚至可以使用大肠杆菌运行。
While this experiment may seem far-fetched, it highlights the boundless creativity and versatility surrounding the classic game.
虽然这个实验看起来有些牵强,但它凸显了这款经典游戏的无限创造力和多功能性。
Lauren “Ren” Ramlan, an MIT biotech graduate student researcher, proposed a concept where E. coli cells in a 32×48 well plate act as pixels, connected to a display controller.
麻省理工学院生物技术研究生研究员 Lauren “Ren” Ramlan 提出了一个概念,其中 32×48 孔板中的大肠杆菌细胞充当像素,连接到显示控制器。
The graphics of Doom are translated into signals that control the fluorescence of the cells, creating a visual representation of the game.
《毁灭战士》的图形被转化为控制细胞荧光的信号,从而创建游戏的视觉表示。
Although the gameplay experience might not be particularly enjoyable, it showcases the potential of merging genetic engineering with engaging entertainment.
尽管游戏体验可能不是特别令人愉快,但它展示了将基因工程与引人入胜的娱乐相结合的潜力。
What is Doom?
什么是《毁灭战士》?
Doom, released in 1993, follows the story of a lone space marine battling demons in a research facility on Mars.
《毁灭战士》于 1993 年上映,讲述了一名孤独的太空海军陆战队员在火星研究设施中与恶魔作战的故事。
While the game’s file size remains small compared to modern standards, it revolutionized the gaming industry and spawned a successful franchise.
虽然与现代标准相比,该游戏的文件大小仍然很小,但它彻底改变了游戏行业并催生了成功的特许经营权。
The unconventional gameplay and computational design of Doom have spurred a movement to play the game on a variety of unintended devices, such as ATMs, printers, calculators, Lego bricks, and even potatoes.
《毁灭战士》非传统的游戏玩法和计算设计激发了人们在各种意想不到的设备上玩游戏的趋势,例如 ATM、打印机、计算器、乐高积木,甚至土豆。
Here's Doom running on a calculator powered by 100 pounds of moldy potatoes https://t.co/8PSiR2l54x pic.twitter.com/NKISmyDANY
这是在由 100 磅发霉土豆驱动的计算器上运行的 Doom https://t.co/8PSiR2l54x pic.twitter.com/NKISmyDANY
— PC Gamer (@pcgamer) October 13, 2020
- PC 游戏玩家 (@pcgamer) 2020 年 10 月 13 日
Ramlan’s experiment adds a unique twist to the ongoing trend of running Doom on unconventional platforms.
拉姆兰的实验为在非常规平台上运行《毁灭战士》的持续趋势增添了独特的变化。
While neuronal computing has enabled Doom to be played through artificial neural networks, programming cells to play the game introduces a novel approach.
虽然神经元计算使得《毁灭战士》能够通过人工神经网络来玩,但对细胞进行编程来玩游戏引入了一种新颖的方法。
However, it’s important to note that running Doom solely on E. coli cells would be an incredibly time-consuming endeavor, potentially taking centuries to complete a single playthrough.
然而,值得注意的是,仅在大肠杆菌细胞上运行《毁灭战士》将是一项非常耗时的工作,可能需要几个世纪才能完成一次游戏。
Ramlan encourages people to explore the possibilities of using cellular systems for gaming and display purposes, highlighting the diverse range of opportunities that synthetic biology offers.
拉姆兰鼓励人们探索使用细胞系统进行游戏和显示目的的可能性,强调合成生物学提供的各种机会。
“I definitely encourage people to imagine what they would play/display on a cellular system. The opportunities are as diverse as a computer screen… only with a much longer wait time.”
“我绝对鼓励人们想象他们会在蜂窝系统上播放/显示什么。机会就像电脑屏幕一样多种多样……只是等待时间要长得多。”