Overview of Distributed Systems: Characteristics, Classification, Computation, Communication, and Fault Models
Characterizing Distributed Systems: Multiple autonomous computers with CPUs, memory, storage, and I/O paths, interconnected geographically, shared state, global invariants. Classifying Distributed Systems: Based on synchrony, communication medium, fault models like crash and Byzantine failures. Comp
9 views • 126 slides
Overview of Distributed Operating Systems
Distributed Operating Systems (DOS) manage computer resources and provide users with convenient interfaces. Unlike centralized systems, DOS runs on multiple independent CPUs and prioritizes software over hardware. It ensures transparency and fault tolerance, with a focus on software error handling.
0 views • 36 slides
Understanding CS 394B: Blockchain Systems and Distributed Consensus
This course, led by Assistant Professor Marco Canini, delves into the technical aspects of blockchain technologies, distributed consensus, and secure software engineering. Students will engage in flipped classroom-style classes and paper presentations, critiquing research papers, defending research
0 views • 65 slides
Understanding Distributed Mutual Exclusion in Operating Systems
In distributed systems, the problem of mutual exclusion arises when multiple sites/processes need to access shared resources concurrently. Unlike in single-computer systems, distributed systems lack shared memory, leading to the need for communication-based approaches rather than shared variables li
0 views • 49 slides
Understanding Parallel and Distributed Computing Systems
In parallel computing, processing elements collaborate to solve problems, while distributed systems appear as a single coherent system to users, made up of independent computers. Contemporary computing systems like mobile devices, IoT devices, and high-end gaming computers incorporate parallel and d
1 views • 11 slides
Designing Distributed and Internet Systems
Learn about the design considerations for distributed and internet systems, including file server versus client/server environments, cloud computing trends, internet standards, and system development life cycle. Explore designing systems for local area networks (LANs) and the process of creating dis
2 views • 51 slides
High-Level Thoughts on Distributed Tone Resource Unit (dRU) Design in IEEE 802.11-23/1988r2 November 2023
Various aspects of Distributed Tone Resource Unit (dRU) design in IEEE 802.11-23/1988r2, such as PSD limitations, distributed transmission regulations, application areas, and open questions are discussed in this presentation by Lin Yang from Qualcomm. Topics include tone distribution, power pooling
0 views • 19 slides
Understanding Remote Method Invocation (RMI) in Distributed Systems
A distributed system involves software components on different computers communicating through message passing to achieve common goals. Organized with middleware like RMI, it allows for interactions across heterogeneous networks. RMI facilitates building distributed Java systems by enabling method i
1 views • 47 slides
Understanding Remote Method Invocation (RMI) in Distributed Systems
A distributed system involves components on different computers communicating to achieve a common goal. Middleware, like RMI, helps organize these systems. RMI allows Java objects to invoke methods on remote objects, facilitating distributed Java systems. It differs from RPC by focusing on object-or
1 views • 47 slides
Understanding Parallel and Distributed Systems in Computing
A parallel computer is a collection of processing elements that collaborate to solve problems, while a distributed system comprises independent computers appearing as a single system. Contemporary computing systems, like mobile devices and cloud platforms, utilize parallel and distributed architectu
0 views • 11 slides
Understanding Message Passing in Distributed Systems
Explore the key concepts of message passing in distributed systems, covering inter-process communication, desirable features like simplicity, efficiency, and reliability, different methods for information sharing, and the importance of synchronization and buffering. Dive into the intricacies of enco
0 views • 68 slides
Distributed DBMS Reliability Concepts and Measures
Distributed DBMS reliability is crucial for ensuring continuous user request processing despite system failures. This chapter delves into fundamental definitions, fault classifications, and types of faults like hard and soft failures in distributed systems. Understanding reliability concepts helps i
0 views • 58 slides
SmartNIC Offloading for Distributed Applications
This presentation discusses offloading distributed applications onto SmartNICs using the iPipe framework. It explores the potential of programmable NICs to accelerate general distributed applications, characterizes multicore SmartNICs, and outlines the development and evaluation process. The study c
0 views • 31 slides
Understanding Causal Consistency in Distributed Systems
This content covers the concept of causal consistency in computing systems, exploring consistency models such as Causal Linearizability and Eventual Sequential. It explains the importance of logical clocks like Lamport and vector clocks, and how they ensure order in distributed systems. The concept
0 views • 35 slides
Enhancing IoT Systems with Blockchain and Distributed Ledger Technologies
Explore the potential of blockchain and distributed ledger technologies in enhancing IoT systems, focusing on privacy, security, and safety. The workshop discusses the benefits and challenges of implementing DLT, as well as a reference IoT scenario in the manufacturing industry. Discover how DLT ena
0 views • 16 slides
Overview of Mutual Exclusion and Memory Models in Distributed Systems
Discussion on fast, randomized mutual exclusion techniques by George Giakkoupis and Philipp Woelfel. Exploring asynchronous shared memory systems with atomic operations. Understanding mutual exclusion principles as outlined by Dijkstra in 1965 and measuring time efficiency in critical sections. Delv
2 views • 23 slides
Economic Models of Consensus on Distributed Ledgers in Blockchain Technology
This study delves into Byzantine Fault Tolerance (BFT) protocols in the realm of distributed ledgers, exploring the complexities of achieving consensus in trusted adversarial environments. The research examines the classic problem in computer science where distributed nodes communicate to reach agre
0 views • 34 slides
Distributed Consensus Models in Blockchain Networks
Economic and technical aspects of Byzantine Fault Tolerance (BFT) protocols for achieving consensus in distributed ledger systems are explored. The discussion delves into the challenges of maintaining trust in adversarial environments and the strategies employed by non-Byzantine nodes to mitigate un
0 views • 34 slides
Distributed Algorithms for Leader Election in Anonymous Systems
Distributed algorithms play a crucial role in leader election within anonymous systems where nodes lack unique identifiers. The content discusses the challenges and impossibility results of deterministic leader election in such systems. It explains synchronous and asynchronous distributed algorithms
2 views • 11 slides
Distributed Graph Algorithms: Introduction and Tree Coloring
This class introduces the fundamentals of distributed graph algorithms focusing on network modeling, complexity measures, solving graph problems, and comparing distributed vs. centralized algorithms. It covers topics such as the LOCAL model, synchronous rounds, communication rounds, computation time
0 views • 17 slides
Distributed Biconnectivity in Graph Analysis for Efficient Network Solutions
Graph biconnectivity is a crucial concept in network analysis, ensuring connectivity even when vertices are removed. Efficient distributed biconnectivity algorithms have practical applications in identifying single points of failure in networks. Leveraging previous work on Ice Sheet Connectivity, a
0 views • 35 slides
Challenges of Time Synchronization in Distributed Systems
Distributed systems face challenges in synchronizing physical time due to varying network paths and clock drifts. While physical time synchronization is useful for tasks like file timestamps, it involves complexities such as estimating communication latency and improving time estimation algorithms l
0 views • 30 slides
Understanding the Chubby Lock Service for Distributed Systems
The Chubby Lock Service, based on the research by Mike Burrows from Google, provides a mechanism for synchronizing activities in loosely-coupled distributed systems. It allows clients to agree on basic information, such as choosing a leader, with the help of advisory locks and event notifications. T
0 views • 38 slides
Understanding MapReduce System and Theory in CS 345D
Explore the fundamentals of MapReduce in this informative presentation that covers the history, challenges, and benefits of distributed systems like MapReduce/Hadoop, Pig, and Hive. Learn about the lower bounding communication cost model and how it optimizes algorithm for joins on MapReduce. Discove
0 views • 60 slides
Overview of Distributed Systems, RAID, Lustre, MogileFS, and HDFS
Distributed systems encompass a range of technologies aimed at improving storage efficiency and reliability. This includes RAID (Redundant Array of Inexpensive Disks) strategies such as RAID levels, Lustre Linux Cluster for high-performance clusters, MogileFS for fast content delivery, and HDFS (Had
0 views • 23 slides
Chi: A Scalable and Programmable Control Plane for Distributed Stream Processing
Distributed stream processing systems are increasingly crucial for various production use cases, such as real-time dashboards, machine learning, and interactive debugging. The challenges of handling large variability in production ingestion workloads and high-degree data skew in queries are addresse
0 views • 20 slides
Evolution of Ceph's Storage Backends: Lessons Learned
Embedded System Lab explores the challenges of building storage backends on local file systems, focusing on the evolution of Ceph's storage backend over a decade. The presentation delves into the complexities of distributed storage systems like Ceph, highlighting difficulties in leveraging efficient
0 views • 27 slides
Secure and Efficient Multi-Variant Execution in Distributed Settings
This paper discusses dMVX, a system for secure multi-variant execution in distributed settings to mitigate memory errors and protect against attacks. Using leader and follower variants, diversified program variants run in lockstep to ensure security. The system monitors and replicates I/O results, e
0 views • 35 slides
Conflict Resolution in Distributed Systems: OT, Crypto, and Untrusted Cloud Services
Explore the complexities of conflict resolution in distributed systems, focusing on Operational Transformation (OT), cryptographic techniques, and handling data in untrusted cloud environments. Learn about concurrent writes, encoding operations as incremental updates, and consider shared word proces
0 views • 53 slides
Exploring Distributed Leadership Perspectives Held by Secondary Head Teachers in South Wales
This research delves into the perspectives on distributed leadership (DL) held by secondary head teachers in South Wales. The study aims to understand how head teachers define and implement distributed leadership in their schools, exploring concepts such as trust, accountability, and the role of ext
0 views • 18 slides
Distributed Software Engineering Overview
Distributed software engineering plays a crucial role in modern enterprise computing systems where large computer-based systems are distributed over multiple computers for improved performance, fault tolerance, and scalability. This involves resource sharing, openness, concurrency, and fault toleran
0 views • 66 slides
Challenges in Detecting and Characterizing Failures in Distributed Web Applications
The final examination presented by Fahad A. Arshad at Purdue University in 2014 delves into the complexities of failure characterization and error detection in distributed web applications. The presentation highlights the reasons behind failures, such as limited testing and high developer turnover r
0 views • 53 slides
Google Spanner: A Distributed Multiversion Database Overview
Represented at OSDI 2012 by Wilson Hsieh, Google Spanner is a globally distributed database system that offers general-purpose transactions and SQL query support. It features lock-free distributed read transactions, ensuring external consistency of distributed transactions. Spanner enables property
0 views • 27 slides
Understanding the CAP Theorem in Distributed Systems
The CAP Theorem, as discussed by Seth Gilbert and Nancy A. Lynch, highlights the tradeoffs between Consistency, Availability, and Partition Tolerance in distributed systems. It explains how a distributed service cannot provide all three aspects simultaneously, leading to practical compromises and re
0 views • 28 slides
Understanding Distributed Hash Table (DHT) in Distributed Systems
In this lecture, Mohammad Hammoud discusses the concept of Distributed Hash Tables (DHT) in distributed systems, focusing on key aspects such as classes of naming, Chord DHT, node entities, key resolution algorithms, and the key resolution process in Chord. The session covers various components of D
0 views • 35 slides
Distributed Database Management and Transactions Overview
Explore the world of distributed database management and transactions with a focus on topics such as geo-distributed nature, replication, isolation among transactions, transaction recovery, and low-latency maintenance. Understand concepts like serializability, hops, and sequence number vectors in ma
0 views • 17 slides
Distributed Computing Systems Project: Distributed Shell Implementation
Explore the concept of a Distributed Shell in the realm of distributed computing systems, where commands can be executed on remote machines with results returned to users. The project involves building a client-server setup for a Distributed Shell, incorporating functionalities like authentication,
0 views • 14 slides
Overview of Ceph Distributed File System
Ceph is a scalable, high-performance distributed file system designed for excellent performance, reliability, and scalability in very large systems. It employs innovative strategies like distributed dynamic metadata management, pseudo-random data distribution, and decoupling data and metadata tasks
0 views • 42 slides
Overview of Ceph: A Scalable Distributed File System
Ceph is a high-performance distributed file system known for its excellent performance, reliability, and scalability. It decouples metadata and data operations, leverages OSD intelligence for complexity distribution, and utilizes adaptive metadata cluster architecture. Ceph ensures the separation of
0 views • 23 slides
Distributed Transaction Management in CSCI 5533 Course
Exploring transaction concepts and models in distributed systems, Team 5 comprising Dedeepya, Dodla, Ehtheshamuddin, and Hari Kishore under the guidance of Dr. Andrew Yang delve into the intricacies of distributed transaction management in CSCI 5533 Distributed Information Systems.
0 views • 56 slides