Skip to main content
BTC / USDTCRYPTO107,400+2.19%ETH / USDTCRYPTO3,840+2.13%SOL / USDTCRYPTO182.40−1.99%BNB / USDTCRYPTO652.30+0.66%XRP / USDTCRYPTO2.2150+1.61%DOGE / USDTCRYPTO0.3850−1.79%TON / USDTCRYPTO5.240+2.34%AVAX / USDTCRYPTO42.60−2.07%LINK / USDTCRYPTO22.40+2.28%ADA / USDTCRYPTO1.0520−1.68%TRX / USDTCRYPTO0.3300+0.92%DOT / USDTCRYPTO8.420+2.93%BTC / USDTCRYPTO107,400+2.19%ETH / USDTCRYPTO3,840+2.13%SOL / USDTCRYPTO182.40−1.99%BNB / USDTCRYPTO652.30+0.66%XRP / USDTCRYPTO2.2150+1.61%DOGE / USDTCRYPTO0.3850−1.79%TON / USDTCRYPTO5.240+2.34%AVAX / USDTCRYPTO42.60−2.07%LINK / USDTCRYPTO22.40+2.28%ADA / USDTCRYPTO1.0520−1.68%TRX / USDTCRYPTO0.3300+0.92%DOT / USDTCRYPTO8.420+2.93%
Precios
cryptoJul 9, 2026, 12:40 PM

Quantum Accelerator Launches in Singapore; ETH Zurich Unveils Mechanical Memory Chip

QAI Ventures, with support from Enterprise Singapore, launched a quantum accelerator selecting four startups from 63 applicants. Concurrently, ETH Zurich researchers introduced a quantum chip using mechanical resonators for memory storage.

The quantum industry is advancing on two fronts: commercialization and hardware innovation. In Singapore, QAI Ventures has launched a quantum accelerator backed by Enterprise Singapore. The first cohort includes four startups selected from 63 applications, receiving funding, mentorship, and access to quantum infrastructure.

Meanwhile, researchers at ETH Zurich unveiled a quantum chip with mechanical memory. The design uses a superconducting qubit as the processor while data is stored in microscopic vibrations of mechanical resonators. This approach could enable more compact and stable quantum computers.

Source: ForkLog