Scientists synchronize 105,000 nano-oscillators in just 45 nanoseconds — paving the way for a highly efficient and fast alternative to transistors
Scientists synchronize 105,000 nano-oscillators in just 45 nanoseconds — paving way for highly efficient and fast alternative to transistors
Read the full articleYou might also wanna read
Nano-TCAD-Gruppe von Prof. Mathieu Luisier: Simulation eines vollständigen Nanoband-Transistors und Nominierung für den Gordon Bell Prize
Zum ersten Mal haben Forschende der Nano-TCAD-Gruppe von Prof. Mathieu Luisier in Zusammenarbeit mit dem Scalable Parallel Computing Laborat
Die Zukunft der Nanoelektronik: Neue Einblicke in Graphen-Nanobänder in «Nature Reviews Materials»
Graphen-Nanobänder (GNRs) gelten als äusserst vielversprechend für die Nanoelektronik der nächsten Generation. Prof. Mickael Perrin, Assiste
Durchbruch bei Siliziumschaltern: Prof. Hua Wangs IDEAS-Gruppe stellt neue Klasse von Hochfrequenzschaltern in «Nature Electronics» vor
Ein Forschungsteam der Integrated Devices, Electronics, and Systems (IDEAS) Group von Prof. Hua Wang hat in «Nature Electronics» eine wegwei

RIKEN scientists propose one-way quantum synchronization to improve quantum computer reliability
Scientists at RIKEN have proposed a new way to make quantum systems synchronize in only one direction—like a one-way street for sound partic
Princeton researchers create 3D brain-computer hybrid device with 70,000 living neurons
Find information and research on ethics, psychology, decision-making, AI, morality, ethical decision-making for mental health practitioners.
Atomic dynamics model offers alternative computing approach beyond semiconductor limits
Implementation of finite state logic machines via the dynamics of atomic systems Logic operations can now be read in parallel and scaled to

Comments
Sign in to join the conversation.
No comments yet. Be the first.