Courses from 1000+ universities
17 years ago, Krishna Kumar started offering free PMP prep online. Today, it’s a leading digital upskilling platform that helps millions upskill in AI, cybersecurity, data science, and more.
600 Free Google Certifications
Fundamentals of Neuroscience, Part 1: The Electrical Properties of the Neuron
Organic Chemistry 1
Mountains 101
Organize and share your learning with Class Central Lists.
View our Lists Showcase
Explore quantum Tanner codes and their role in single-shot quantum error correction, focusing on constant-weight parity checks and reliable error suppression in both adversarial and stochastic noise scenarios.
Explore quantum PAC learning theory through a comparative analysis of proper and improper learning methods, focusing on the Quantum Coupon Collector problem and its padded variant.
Discover groundbreaking research on quantum PAC learning, exploring provable advantages over classical methods with square root improvements in sample complexity and theoretical quantum information science.
Explore groundbreaking research on hierarchical quantum LDPC codes for efficient fault-tolerant quantum memories, featuring innovative bilayer architecture and performance analysis against surface codes.
Explore the intersection of locally checkable labeling problems across quantum computing models, examining theoretical advantages and limitations in distributed systems and tree structures.
Delve into groundbreaking research demonstrating how a single clean qubit enables quantum communication advantage, challenging previous assumptions about quantum versus classical communication complexity.
Explore quantum computation through Poisson-distributed phase randomization, examining how dephasing operations enable eigenspace tracking and optimize quantum algorithms like Grover search.
Explore groundbreaking research in Hamiltonian property testing, examining efficient algorithms for quantum systems and the fundamental differences between testing and learning approaches.
Explore groundbreaking research on learning bosonic Hamiltonians through dissipation, featuring new protocols for quantum system characterization using coherent states and heterodyne detection.
Explore groundbreaking quantum secret sharing techniques that enable verifiable destruction of quantum shares while maintaining security, even against adversaries who collect authorized share sets.
Explore groundbreaking research on revocable quantum digital signatures, examining two novel approaches using LWE assumption and group actions for enhanced cryptographic security and verification capabilities.
Explore groundbreaking research on quantum computation delegation using off-the-shelf devices, focusing on secure client-server interactions and novel self-testing methods for EPR pairs.
Delve into quantum graphical models, exploring forward/backward mapping problems, quantum belief propagation, and innovative algorithms like quantum iterative scaling for enhanced quantum information processing.
Explore groundbreaking quantum cryptographic schemes that provide security against unlimited side-channel attacks and intrusion, advancing beyond classical bounded leakage limitations for enhanced data protection.
Explore the mathematical foundations of quantum channels' fixed points and their applications to quantum Markov chains, focusing on approximation methods and dimensional scaling properties.
Get personalized course recommendations, track subjects and courses with reminders, and more.