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We were here together objects bugged11/1/2022 Lightswitch 2: When this is completed, behind you there is a lever with the lightswitch in one of the rooms.Lord: Start from either end of the line and describe each symbol as the line goes until it ends.Peasant: Just like the candles earlier, you will need to press the symbols around the pentagram in the order of Lord’s drawings.Objective: “Draw” the star on Peasant’s pentagram using Lord’s symbols, by pressing the buttons around it in order.Peasant: Click on the symbols that may match the description of Lord’s banner.This symbol is comprised of 4 smaller symbols. Lord: Describe the symbol of the red banner. You will need to form the correct symbol using different smaller symbols. Peasant: The red and blue banners on each side of the room light up.Objective: Complete Peasant’s symbols using 4 smaller symbols using Lord’s “complete” symbol.Peasant: Light the candles in order of the numbers on Lord’s book.The layout corresponds to the candles on Peasant’s side surrounding some sort of pentagram. Lord: There is a book with candles on them placed in a circular form.Objective: Light the candles in order on Peasant’s side using Lord’s book.Lightswitch 1: In the room that opens after the first puzzle with the book of the 3 coffins.Peasant: Input those symbols on the puzzle and pull the lever.Get out of the room and look for the coffins with the symbols above them. The book is a hint that 3 coffins are linked to 3 symbols. Lord: A door on the west side of the room will open with a book and a lever with a lightswitch.Peasant: Insert those symbols on your side, and pull the lever.You’ll have to stand right in front of it to see them. Lord: There is a sewer with the symbols behind them, glowing red.Peasant: There are 3 symbols on a cylinder puzzle and a lever.Objective: Solve the cylinder puzzle on Peasant’s side, twice.Mirrors are needed to focus the light into a thinner wavelength. As the metal vaporizes, it emits the required EUV light. To recreate this in a controlled environment, ASML machines zap molten droplets of tin with a laser pulse. This is all happening at such a small scale, the current way to make it work is to use extreme ultraviolet light, which usually only occurs naturally in space. These patterns eventually become transistors. The company’s gear uses light to burn patterns into materials deposited on the silicon. One of the most difficult parts of the process is lithography, which is handled by machines made by ASML Holding NV. juggle a host of variables, such as temperature, pressure, and electrical and magnetic fields, to make this happen. Machines made by Applied Materials Inc., Lam Research Corp. Some of these layers are just one atom thin. These are deposited, then partially removed, to form complex three-dimensional structures that connect all the tiny transistors. More from Bloomberg Big Take: Chip Shortage Forces Carmakers to Strip Out High-Tech FeaturesĬhips consist of as many as 100 layers of materials. The end goal is to transform wafers of silicon-an element extracted from plain sand-into a network of billions of tiny switches called transistors that form the basis of the circuitry that will eventually give a phone, computer, car, washing machine or satellite crucial capabilities. Manufacturing a chip typically takes more than three months and involves giant factories, dust-free rooms, multi-million-dollar machines, molten tin and lasers. Even the European Union is mulling measures to make its own chips. President Joe Biden has vowed to build a secure American supply chain by reviving domestic manufacturing. China has called chip independence a top national priority in its latest five-year plan, while U.S. This is why countries face such difficulty in achieving semiconductor self sufficiency. boss Craig Barrett called his company’s microprocessors the most complicated devices ever made by man. The more complicated answer is that it takes years to build semiconductor fabrication facilities and billions of dollars-and even then the economics are so brutal that you can lose out if your manufacturing expertise is a fraction behind the competition. “It’s not rocket science-it’s much more difficult,” goes one of the industry’s inside jokes. The simple version is that making chips is incredibly difficult-and getting tougher. There is both a simple answer and a complicated one. The crunch has raised a fundamental question for policymakers, customers and investors: Why can’t we just make more chips? Shortages of semiconductors are battering automakers and tech giants, raising alarm bells from Washington to Brussels to Beijing.
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