Semiconductors

74 articles with this tag

How Small Modular Reactors Work—and Why Big Tech Wants Them Technology

How Small Modular Reactors Work—and Why Big Tech Wants Them

Small modular reactors promise factory-built nuclear power in a fraction of the size of conventional plants. Here is how SMR technology works, why tec...

Redakcia
How Memristors Work—and Why They Could Transform AI Technology

How Memristors Work—and Why They Could Transform AI

Memristors are the long-theorized fourth fundamental circuit element that can store data and compute simultaneously. A recent breakthrough in extreme-...

Redakcia
How Foldable Phone Screens Work—and Why They Crease Technology

How Foldable Phone Screens Work—and Why They Crease

Foldable smartphones rely on flexible OLED panels, ultra-thin glass, and precision hinges to bend without breaking — but eliminating the visible creas...

Redakcia
How Quantum Decoherence Works—and Why It Limits Computing Science

How Quantum Decoherence Works—and Why It Limits Computing

Quantum decoherence is the process by which qubits lose their quantum properties through environmental interaction, and it remains the single biggest...

Redakcia
How EUV Lithography Works—and Why One Company Controls It Technology

How EUV Lithography Works—and Why One Company Controls It

Extreme ultraviolet lithography uses plasma hotter than the sun to print the world's most advanced chips, and only one company on Earth can build the...

Redakcia
How Neuro-Symbolic AI Works—and Why It Matters Technology

How Neuro-Symbolic AI Works—and Why It Matters

Neuro-symbolic AI merges neural networks with rule-based logic to build systems that reason like humans, slash energy use, and eliminate the hallucina...

Redakcia
How Silicon Photonics Works—and Why Data Centers Need It Technology

How Silicon Photonics Works—and Why Data Centers Need It

Silicon photonics replaces copper wires with light-on-a-chip technology to move data faster and more efficiently, becoming essential infrastructure fo...

Redakcia
What Are MXenes and Why They Could Rival Graphene Science

What Are MXenes and Why They Could Rival Graphene

MXenes are a fast-growing family of two-dimensional materials made from transition metal carbides and nitrides, offering metallic conductivity, tunabl...

Redakcia
How Custom AI Chips Work—and Why Big Tech Builds Them Technology

How Custom AI Chips Work—and Why Big Tech Builds Them

Tech giants like Google, Amazon, and Meta are designing their own custom AI chips called ASICs to reduce dependence on Nvidia GPUs, cut costs, and opt...

Redakcia
EU Approves €20 Billion AI Gigafactory Plan for Digital Sovereignty Technology

EU Approves €20 Billion AI Gigafactory Plan for Digital Sovereignty

The EU Council has greenlit the construction of up to five AI gigafactories across Europe, each housing over 100,000 advanced AI chips, as part of a €...

Redakcia
How Nanolasers Work—and Why They Could Halve Computing Energy Technology

How Nanolasers Work—and Why They Could Halve Computing Energy

Nanolasers use light-trapping nanocavities to replace electrical signals with photons inside microchips, promising to cut computer energy consumption...

Redakcia
How Singlet Fission Works—and Why It Could Transform Solar Science

How Singlet Fission Works—and Why It Could Transform Solar

Singlet fission is a quantum process that splits one photon's energy into two electron-hole pairs, potentially pushing solar cell efficiency far beyon...

Redakcia