Computer Engineering Pdf

Study Plan Masters of Science in data processor plan and intercommunicates (Thesis Track) I. General Rules and Conditions 1. This plan conforms to the regulations of the general frame of programs of graduate studies at the University of Jordan. 2. Candidates for admission in this program are holders of the Bachelors degree in the quest specialties a) computing machine engineering science b) Electrical engineering c) Networks Engineering d) communicating theory Engineering e) Electronics Engineering f) Bachelor of Mechatronics II. Special Conditions nonee.III. The Study Plan Studying (33) quote hours as follows 1. Obligatory courses argumented in Table 1 (15) citation Hours. unravel no 0903720 0903723 0907721 0907731 0907741 hightail it Title Random serve welles Variables and Stochastic Credit hrs. 3 3 3 3 3 Prerequisite 0903720 0907721 Analysis of communions Networks Network Systems trope modernistic Computer Architecture Distributed Systems 2. Elective courses sele cted from the careen shown in Table 2 (9) Credit Hours. Credit Course No. Course Title Pre-requisite hrs. 903721 0903725 0903728 0903730 0907702 0907722 0907723 0907732 0907733 0907779 Digital communicatings I radio dialogue Systems selective information Communication Systems Multimedia Streaming Computer Performance evaluation Networks and Systems warranter Wireless Networks travel introduce Systems Parallel Processors 3 3 3 3 3 3 3 3 3 0903720 0907721 Special Topics in Computer Engineering and 3 Networks 3. Masters Thesis, 0907799 (9) Credit Hours. 1 Study Plan Masters of Science in Computer Engineering and Networks (Non-Thesis Track) I. General Rules and Conditions 1.This plan conforms to the regulations of the general frame of programs of graduate studies at the University of Jordan. 2. Candidates for admission in this program are holders of the Bachelors degree in the avocation specialties a) Computer Engineering b) Electrical Engineering c) Networks Engineering d) com munications Engineering e) Electronics Engineering f) Bachelor of Mechatronics II. Special Conditions None. III. The Study Plan Studying (33) computer address hours as follows 1. Obligatory courses listed in Table 3 (24) Credit Hours.Course No. 0903720 0903723 0903725 0907721 0907722 0907723 0907731 0907741 Course Title Random Processes Variables and Stochastic Credit hrs. 3 3 3 3 3 3 3 3 Prerequisite 0903720 0903720 0907721 0907721 Analysis of Communications Networks Wireless Communication Systems Network Systems determination Networks and Systems Security Wireless Networks Advanced Computer Architecture Distributed Systems 2. Elective courses selected from the list shown in Table 4 (9) Credit Hours. Credit Course No. Course Title Pre-requisite hrs. 903721 0903728 0903730 0907702 0907732 0907733 Digital Communications I Data Communication Systems Multimedia Streaming Computer Performance valuation Advanced implant Systems Parallel Processors 3 3 3 3 3 3 2 0907779 Special Topic s in Computer Engineering and 3 Networks 3. The house-to-house Exam (0907798). 3 Masters of Science in Computer Engineering and Networks Course Descriptions 0903720 Random Variables and Stochastic Processes (3 Credit Hours) Probability and haphazard variables. statistical distribution and density functions. Functions of random variables. Two random variables and sequences of random variables.Multidimensional random variables. Stochastic Processes. Markov chains. Spectral representation of stochastic processes. Spectral estimation. Project. Digital Communications I (3 Credit Hours) mental home to Communication Systems. Baseband and Bandpass digital modulation techniques pull Codes, ASK, FSK, PSK, DPSK, QAM. Performance measures power, bandwidth, bit error rate. Carrier and symbol synchronization. Signal protrude for band-limited channels. Signal design for fading channels. Project. Analysis of communication Networks (3 Credit Hours) Pre-requisite 0903720 Introduction to queuing theory and traffic engineering.Markov chains, steady- verbalise and balance equations. Continuous and discrete arrival models. sanctioned queuing systems. Erlang formulas. Applications to telephony systems and aata entanglements, functioning parameters (blocking probability, delay, throughput and reliability). Systems with vacations, priority systems, polling and reservation systems. Network simulation. Project. Wireless Communication Systems (3 Credit Hours) Review of Multiple Access Techniques TDMA, FDMA, CDMA, OFDMA. Design of radio communication systems modulation, propagation, channel estimation, equalization and coding.Cellular systems (GSM/3G/4G), Synchronous and asynchronous CDMA and code synchronization. CDMA performance and multi-user interference cancellation. Satellite communication systems. Indoor communication systems, wireless LANs and wireless protocols. Data Communication Systems (3 Credit Hours) Introduction to communication and switching net profits. Async hronous and synchronous transmission, SDH/SONET. Design and planning of telephony systems. Broadband access technologies. profitsworking and the Internet Protocol (IP), routing in IP. Quality of Service (QOS).Voice over IP (VoIP). sound recording and video streaming. IP network planning. Integration of data and cellular/wireless networks. Security issues. Project. (3 Credit Hours) Information Measures. Audio Video Data Compression. Performance of Compression Techniques and Rate Distortion Function. Mathematical Introduction to turn Theory. Cyclic, BCH and CRC Codes. Convolutional and Turbo Codes. LDBC Codes. Performance of Error Correcting Codes. Packet Data Transmission and Formatting for Audio and Video Data. Multimedia Streaming 0903721 0903723 0903725 0903728 0903730 4 0907702Computer Performance Evaluation (3 Credit Hours) Issues in Performance Evaluation and Benchmarking. Measurement Tools and techniques, Trace set and Execution Driven Simulation. Choice of metrics. Benchma rks. Statistical techniques for Performance Evaluation. Trace generation and Validation, Synthetic Traces, Verification of Simulators. Design of Experiments. Analytical Modeling of Processors, Statistical modeling, crossbreeding Techniques. Application of queuing theory, Markov models and probabilistic models for computer system evaluation. Workload Characterization.Network Systems Design (3 Credit Hours) This course gives a broad view of the current state of computer networking research. Topics include Internet architecture Internet routing the Border entrance Protocol (BGP), routing characterization, routing security, Internet AS relationships, traffic engineering, end host over-crowding control quality-of-service, network security intrusion detection systems, worms, and honeypots mobile and wireless networking peer to peer and overlay networking content distribution networks sensor networks exact network infrastructure services Domain Name Server (DNS), turn on servers, etc. n etwork measurement distance estimation, bandwidth measurement, trouble shooting tools network management. Networks and Systems Security (3 Credit Hours) Pre-requisite 0903720 Review of Computer Networks. Number Theory and palm Arithmetic. Sources of Network Threats. Data Encryption Cryptography and Ciphering. Risk Management. Key Management. Protocols and Algorithms of Security Systems. Email and Web Security and Firewalls. Performance Evaluation of Security Systems.Wireless Networks (3 Credit Hours) Pre-requisite 0907721 Introduction to wireless networks physical layer, MAC and IEEE 802. 11, HIPERLAN, Bluetooth, channel appellative and channel hopping, power control and rate control, multi-radio, network layer, mobile IP, and naming, routing in mobile networks, transport protocol in wireless networks types of wireless networks wireless mesh networks, sensor networks, cellular networks, delay tolerant networks, RFID and WiMax wireless network management and security localization, network usage studies, network diagnosis, network security.Advanced Computer Architecture (3 Credit Hours) Subjects in scientific methodologies, review of computer design principles, processor design, RISC processors, pipelining, and memory hierarchy. Instruction level agreement (ILP), dynamic scheduling, multiple issue, speculative execution, and branch prediction. Limits on ILP and software approaches to performance more ILP. VLIW and EPIC approaches. Thread-level parallelism, multiprocessors, chip multiprocessors, and multi-threading. Cache coherence and memory symmetry.Advanced memory hierarchy design, cache and memory optimizations, and memory technologies. Advanced topics in storage systems. Designing and 5 0907721 0907722 0907723 0907731 evaluating I/O systems. 0907732 Advanced Embedded Systems (3 Credit Hours) System specifications. Requirements and models of computation including State Charts, SDL, Petri nets, Message Sequence Charts, UML. Process networks, Java, VHDL. S ystemC, Verilog and System Verilog, and SpecC. Embedded system hardware, I/O, communications, processing units, memories.Embedded in operation(p) systems, middleware, and scheduling. Prediction of execution times. Scheduling in real-time systems. Embedded operating(a) systems. Implementing infix systems hardware/software codesign. Task-level concurrency management. High-level optimizations. Hardware/software partitioning. Compilers for embedded systems. Voltage scaling and power management. Actual design flows and tools. Validation. Simulation. Rapid prototyping and emulation. Test. smirch simulation. Fault injection. Risk and dependability analysis. Formal verification.Parallel Processors (3 Credit Hours) In-depth pick up of the design, engineering, and evaluation of modern parallel computers. Fundamental design naming, synchronization, latency, and bandwidth. Architectural growth and technological driving forces. Parallel programming models, communication primitives, programm ing and compilation techniques, multiprogramming workloads and methodology for quantitative evaluation. Latency avoidance through reproduction in small-scale and large-scale shared memory designs cache-coherency, protocols, directories, and memory consistency models.Message passing protocols, storage management, and deadlock. Efficient network interface, protection, events, active messages, and coprocessors in largescale designs. Latency tolerance through prefetching, multithreading, dynamic instruction scheduling, and software techniques. Network design topology, packaging, k-ary n-cubes, performance under contention. Synchronization global operations, mutual exclusion, and events. alternate architectures dataflow, SIMD, systolic arrays. Distributed Systems (3 Credit Hours) Pre-requisite 0907721 Introduction to Distributed Systems.Distributed Operating Systems. Processes and Inter-process Communication (IPC). Distributed File Systems. conflicting Procedure Calls (RPC). Security Models. Distributed Architectures and Technologies. Middleware. Object Based Distributed Systems. Messaging and Message point Systems. Agent-Based Systems. Distributed Application Project. Special Topics in Computer Eng. and Networks (3 Credit Hours) 0907733 0907741 0907779 Topics of special sake in current computer engineering and networks issues. The course description is qualify by the department at every course offering. 6