Concept

Graphics processing unit

Related lectures (32)

By the instructor Mark Silberstein explores accelerator-centric OS architecture and the role of CPUs in modern computers.

Fast Interconnects: Scalable Co-processing with GPUs

Explores the use of fast interconnects for scalable co-processing with GPUs in databases, emphasizing the importance of overcoming the transfer bottleneck and reevaluating assumptions for performance improvements.

GPUs: Multithreading and Architecture

Explores GPUs' architecture, multithreading, and their role in machine learning, discussing limitations and future trends.

GPUs: Architecture and Programming

Explores GPU architecture, multithreading, SIMD processors, and CUDA programming for parallel computing.

GPU Introduction: Performance and Programming

Explores the motivation and advantages of using GPUs for computation, focusing on their performance and programming through CUDA.

Accelerated Data Management Systems

Explores accelerated data management systems through real-time specialization on heterogeneous hardware and GPU accessing fresh data from CPU memory.

GPUs: Introduction to CUDA

Introduces the basics of GPUs, CUDA programming, and thread synchronization for parallel computing applications.

Efficient GPU Join Optimization

Covers efficient GPU-accelerated join optimization for complex queries, focusing on improving optimization times and heuristic plan quality.

Translations and Homotheties

Covers translations, homotheties, and their geometric properties, including reversibility and composition.

Linear Algebra: Applications and Definitions

Covers the definition of applications, image of elements, and direct and reciprocal images.

Hardware Interconnect Optimization: RDMA and GPU Integration

Explores hardware interconnect optimization, focusing on RDMA and GPU integration for improved performance.

Scalar Product: Geometric Properties

Covers the definition and properties of the scalar product, including geometric interpretations and algebraic properties.

Analytical Geometry: Vector Equations of Lines

Covers vector equations of lines in analytical geometry, including finding intersection points and orthogonal projections.

Cartesian Product: Sets and Recurrence

Explores the Cartesian product of sets, subsets, and recurrence in mathematics with examples and exercises.

Multiprocessors: Overview and Challenges

Covers the evolution and challenges of multiprocessors, emphasizing energy efficiency, parallel programming, cache coherence, and the role of GPUs.

Computer Graphics Fundamentals

Covers fundamental concepts in computer graphics, including rendering, modeling, and animation, aiming to develop practical skills and stimulate interest in the interdisciplinary field.

Computational Study of Quantum Interaction Phenomena

Delves into computational quantum interaction phenomena in materials using high-performance computing, covering N-particle quantum mechanics, ab initio approaches, and the NOMAD Center of Excellence.

GPUs: Architecture and Programming

Explores GPUs' architecture, CUDA programming, image processing, and their significance in modern computing, emphasizing early start and correctness in GPU programming.

Topology Imperfections: Overcoming Hybrid CPU-GPU Analytics

Explores overcoming topology imperfections in analytics through hybrid CPU-GPU architectures and load balancing.

Intraday Data Analysis

Covers intraday data analysis, systematic studies, debugging, multicore computing, GPU programming, and correlation computation with GPUs.