Best Universities for Masters certificate program in Systems and Networking Management

Certificate Program in Quantum Science, Networking, and Communications.

Quantum technologies are transforming how people live, work, and play. Secure the communication, networking, and programming skills that are revolutionizingindustries and reshaping our future.

In weekly virtual classes, you will interact directly with advanced quantum technologies and leaders in quantum research from UChicago and the University of Illinois Urbana-Champaign in partnership with the NSF Quantum Leap Challenge Institute for Hybrid Quantum Architectures and Networks (HQAN). The certificate course culminates in the simulation of a multi-node quantum network.

Mid-career professionals seeking to transition into the quantum field will also benefit from this certificate course.

In seven weeks of live sessions and self-paced modules, students will acquire the theoretical and practical fundamentals of quantum computing and communications. These include:.

Understanding the linear algebra framework of quantum information and computing basic objects like expectation values, state vector evolution, and decoherence times.

Programming quantum circuits using Qiskit software and implementing quantum network protocols using SeQUeNce software.

Defining fundamental quantum communication protocols such as quantum teleportation, superdense coding, entanglement distribution, and quantum key distribution (QKD).

Explaining the physical components used in quantum networks like superconducting and trapped ion qubits, photonic quantum channels, and quantum repeaters.

Upon completing all required assignments and activities, each participant will receive a non-credit certificate of completion at the conclusion of the course.

The first week focuses on the fundamentals and principles of quantum information. Students will learn the different types of application protocols for quantum networks and the mathematical formalism of qubits, Bloch sphere, and quantum evolution. Key topics include:.

Prominent quantum communication tasks such as quantum key distribution (QKD), blind quantum computing, clock synchronization, secret sharing, and long-baseline telescopy.

Quantum systems like finite-dimensional vector spaces, kets bras, and unitary and Hermitian matrices.

Qubits as the basic building block of quantum information systems, Pauli operators, and the Bloch sphere representation of qubits.

The fourth module focuses on quantum communications. Students will learn the properties of quantum entanglement, the use of quantum entanglement in quantum communication, and communication primitives such as superdense coding, teleportation, and quantum key distribution. Key topics include:.

Superdense coding and teleportation like entanglement-enhanced communication tasks.

The fifth module expands on the quantum communications concepts introduced the previous week. Students will learn explain the principles of entanglement swapping, how quantum repeaters work, and the basic concepts of entanglement purification. Key topics include:.

The sixth module focuses on quantum network hardware. Students will learn the essential components of a quantum network and how they function together. They will connect theoretical protocols with hardware deployment and explore the different types of physical systems used to encode qubits and perform quantum communication. Key topics include:.

Network components such as memories, repeaters, photon sources, detectors, and interconnects.

Physical systems such as photons, SC qubits, atoms, and color centers.

Standard performance metrics for network devices such as coherence times, channel loss, detector efficiency, and transmission fidelity.

The final module focuses on quantum network protocols and simulation. Students will learn all the components of the course in a simulation of a multi-node quantum network. Key topics include:.

The effects of noise and decoherence on quantum communication protocols.

Realistic quantum networks and syntax for SeQUeNCe simulator.

He studies quantum many-body physics and quantum information processing, and seeks to develop new ways of engineering large, complex quantum systems.

Eric Chitambar leads the Chitambar Quantum Information Group at the University of Illinois, a research group that studies the mathematical theories and practical applications of quantum entanglement and other fundamental quantum phenomena.

Bryan Clark focuses on areas of computational condensed matter, quantum algorithms, and quantum circuits. He works on developing quantum algorithms for simulating quantum systems including automatically generating circuits to diagonalize Hamiltonians, developing ways of simulating condensed matter.

Alex Kolar is a PhD student in Quantum Engineering in Dr. Tian Zhong lab at the University of Chicago. He studies quantum hardware control systems as well as quantum network simulation.

Few professionals can say their work transforms how people live, work, and play. Life-changing work that impacts virtually every area of our lives is within the quantum science career path. Quantum engineering has the power to transform cybersecurity, materials development, computing, and other research areas, and companies in the communications, electronics, optics, and materials industries are examining quickly and effectively build a quantum-ready workforce. By acquiring skills in this area, you are capable of leading discoveries, technologies, and solutions never thought possible. Gain these powerful skills with the leader in quantum: UChicago.

The Chicago Quantum Exchange (CQE) is an intellectual hub for advancing the science and engineering of quantum information between the CQE community, across the Midwest, and around the globe.

The Pritzker School of Molecular Engineering (PME) integrates science and engineering to address global challenges from the molecular level up. In the University of Chicago tradition of rigorous inquiry, we ask crucial scientific questions that have real-world implications. Our work applies molecular-level science to the design of advanced devices, processes, and technologies. Organized by interdisciplinary research themes, we aim to develop solutions to urgent societal problems, such as water and energy resources, information security, and human health.

The program was established as the Institute for Molecular Engineering in 2011 by the University in partnership with Argonne National Laboratory.

National Science Foundation Quantum Leap Challenge Institute for Hybrid Quantum Architectures and Networks.

The NSF Quantum Leap Challenge Institute for Hybrid Quantum Architectures and Networks (HQAN) features three quantum testbeds that will collaboratively develop the technology needed to assemble a hybrid quantum processor and network. Each laboratory is designed with multiple kinds of quantum hardware, which will be used to demonstrate distributed quantum processing and communication protocols. The HQAN center also includes workforce development initiatives that will inspire and train students who will contribute to the future quantum technology and innovation ecosystem.

Our team is ready to discuss the course and answer your questions regarding our registration process.

Master of Science in Threat and Response Management.

Are rarely predictable and often irreversible. This research initiative investigates how all manner of networks can structure themselves so they are protected against collapse from within. This includes a particular focus on increasing the resilience of a networked system to endogenous risks by increasing the resilience of the individual components, as well as anticipating how agents in the system will respond to these changes.

Kevin Werbach outlines three takeaways Wharton new certificate program on the emerging technology. This six-week online program on Business in the Metaverse will run from Sept. 6, making it the first Ivy League certificate program on the metaverse.

The computer science curriculum at Columbia places equal emphasis on theoretical computer science and mathematics and on experimental computer technology.

The Certification of Professional Achievement in Information Systems is designed for students who wish to deepen their fundamental knowledge at the graduate level by completing 4 specified courses in the Computer Science Department.

Columbia really shines in my search for a school to pursue my advance degree via long distance learning. The reason is simple. I found none of its competitor comes close to it. Equally important is that CVN constantly look for way to improve.

Applicants to the Certification of Professional Achievement Program must submit official transcripts, 3 letters of recommendation, personal-professional statement, resume, and the $150 application fee.

Candidates for the Certification of Professional Achievement Program must complete the program of study as defined by the appropriate department.

4 Graduate-level classes all earned through CVN, as a non-degree student.

Completion of program within two (2) calendar years.

One of the following:Database System Implementation (COMS W4112) Advanced Database Systems (COMS E6111) Web Enhanced Information Management (COMS E6125).

One of the following: Advanced Internet Services (COMS E6181) Network Security (COMS W4180) Operating Systems (COMS W4118)Computer Networks (CSEE W4119)Visual Interfaces to Computers (COMS W4735).

One of the following: Visual Information Systems (ELEN E6850) Natural Language Processing (COMS W4705).

CVN Credit Tuition: $2,362 per point (Credit Hour)CVN Fee: $395 non-refundable fee per courseTranscript Fee: $105 non-refundable one-time feeTuition Deposit: $1000 ( information on our Resources page).

Estimated cost of one nondegree course: $7,586Estimated total cost of certification (four courses): $30,029.00.

Estimated total cost of MS (ten courses): $74,915.00Estimated total cost of DES (ten courses plus a minimum of 12 research credits): $104,049.00.

Graduate Admission Application Fee: $150 non-refundable one-time feeCertification Program Application Fee: $150 non-refundable one-time fee.

Assumes DES student enrolls in two six-credit research courses.

For Drop Withdrawal fees and dates, refer to the Academic Calendar for the current term.

Please note: CVN no longer offers courses for audit.

Cyber Ops Certificate.

Cyber operations (Cyber Ops) is a specialization of information security that is in high demand within areas of the government and military, including the National Security Agency (NSA).

If you have an interest in working for the NSA, or a similar organization, certification in Cyber Ops may be the right fit for you. To participate, students must be enrolled in the Master of Science in Information Security (MSIS) program.

MSIS students are able to earn Cyber Ops certification without taking additional coursework, however they must fulfill both sets of requirements. All courses used to satisfy the Cyber Ops certificate requirements must be taken for a letter grade. If completed, the Cyber Ops certificate will be issued at graduation.

Note: International students can pursue the Cyber Ops Certificate.

Carnegie Mellon University, through the INI and CyLab, has been designated as a National Center of Academic Excellence in Cyber Operations (CAE-CO).

The Cyber Ops Certificate is available for MSIS students.

The Cyber Ops certificate requirements focus on both mandatory and optional Knowledge Units (KUs) representing important areas of study in the field of cyber operations. Some KUs are covered by multiple courses, and other KUs require multiple courses.

To earn the Cyber Ops certificate, students must successfully complete courses that cover all of the mandatory KUs and at least four (4) of the optional KUs.

14-642: Introduction to Embedded Systems OR15-605: Operating System Design and Implementation.

M.3: Operating System Theory, O.12: Systems Programming [14-642 also covers O.10: Embedded Systems].

14-740: Fundamentals of Telecommunications Networks OR14-760: Advanced Real-World Data Networks.

14-782: Information Security Risk Management OR14-817: Cyber Risk Analysis.

14-822: Host Based Forensics AND 14-823: Network Forensics.

The following course schedules are examples of how a student can fulfill their degree requirements and earn the Cyber Ops certificate in three semesters:.

Merit scholarship may reduce cost.

Hone Your Skills in Networking Data Communication.

In this program, you will undertake a comprehensive examination of network design and implementation, network performance analysis and management, network security, and the latest networking technology. The program is designed to empower you with extensive knowledge and hands-on experience, in order to analyze, design, procure, manage, and implement cutting-edge computer networking solutions and technologies.

U.S. News World Report Best Online Programs Graduate Computer Information Technology 2023.

#10, Best Online Master in Computer Information Technology Programs.

Top computer science careers in data science, software development, and other popular areas of IT.

Use the Career Insights tool to explore jobs that are the right fit for you. Filter by career area and job title or by industry sector to explore employment demand and average salaries. to find the BU MET degree or certificate program that will prepare you for the job you want.

Why BU Should Be Your Top Choice for Computer Science Graduate Study.

Recognized Certified: Boston University is recognized by the National Security Agency and the land Security as a Center of Academic Excellence (CAE) in Cyber Defense and Research.

Flexible Evening Study: Study at the pace that works for you, evenings on campus. Courses begin fall, spring, and summer.

Over its four decades, the department has played an important role in the emergence of IT at the University and throughout the region.

For over forty years, the Computer Science at Metropolitan College has prepared students to tackle contemporary challenges in the field. We take pride in providing training in critical specialization areas and emphasizing practical, insightful, and adaptable knowledge that can be immediately applied on the job while informing your career growth for years to come.

Boston University is designated a Center of Academic Excellence (CAE) in Cyber Defense and Research by the National Security Agency and land Security.

Advanced knowledge of data communication networks and protocols along with the ability to identify issues involved in multi-access media and devices as applied to wired and wireless networks the ability to identify key areas for performance analysis and debugging of networks and techniques for network management in small to large-scale networks.

Proficiency in data communication protocols and networks, including such areas as: flow control, distributed synchronization, error detection and correction, and routing techniques, and where to implement them.

Competence sufficient to design, specify, and develop data transfer protocols for specific purposes design, specify, plan, and define networks of any size and analyze, evaluate, and select networking devices applicable to the network area that they are being implemented in, whether LAN, MAN, WAN, or wireless.

To be eligible for the degree, you must apply for admission and be accepted into the degree program.

This course provides a robust understanding of networking. It teaches the fundamentals of networking systems, their architecture, function and operation and how those fundamentals are reflected in current network technologies. Students will learn the principles that underlie all networks and the application of those principles (or not) to current network protocols and systems. The course explains how layers of different scope are combined to create a network. There will be a basic introduction to Physical Media, the functions that make up protocols, such as error detection, delimiting, lost and duplicate detection and the synchronization required for the feedback mechanisms: flow and retransmission control, etc. Students will be introduced to how these functions are used in current protocols, such as Ethernet, WiFi, VLANs, TCP IP, wireless communication, routing, congestion management, QoS, network management, security, and the common network applications as well as some past applications with unique design solutions. Prere MET CS 575 and MET CS 201 or MET CS 231 or MET CS 232. Only one of these courses can be counted towards degree requirements.

The purpose of this course is to provide students with a deeper understanding of Media-specific Technologies not only so that they will be able to use the ones covered in this course, but importantly be able to analyze and evaluate new technologies. This course applies the principles from CS 535 to understand the engineering that lead to them as well as the special problems that confront network technologies that operate directly over the physical media. While CS 535 provides a high-level view of some of these technologies, in this course, they are considered in much greater detail as to how these technologies address their requirements and take advantage of the assumptions made. The emphasis is on those technologies that are either representative of a type or take a unique perspective on the problem. Hence, the traditional data link protocols, such as HDLC, modern Ethernet (primarily VLANs), WiFi (802.11) represent the first type, while media technologies, such as DOCSIS, RFIDs, IoT, and cellular mobile networks are representative of the second. The course will consider how these technologies solve mobility, routing, congestion, QoS (multi-media), security, etc. A major project is part of this course.

This course will cover advanced network security issues and solutions. The main focus on the first part of the course will be on Security basics, i.e. security services, access controls, vulnerabilities, threats and risk, network architectures and attacks. In the second part of the course, particular focus and emphasis will be given to network security capabilities and mechanisms (Access Control on wire-line and wireless networks), IPsec, Firewalls, Deep Packet Inspection and Transport security. The final portion of the course will address Network Application security (Email, Ad-hoc, XML SAML and Services Oriented Architecture security. As part of our course review we will explore a number of Network Use Cases.

This course will cover contemporary integrated network management based on FCAPS (Fault, Configuration, Administration, Performance, and Security management) model. The introduction to the course will be an of data transmission techniques and networking technologies. The middle part of the course will be on Network Management Model, SNMP versions 1, 2 and 3, and MIBs. In the second part of the course, particular focus and emphasis will be given to current network management issues: various wireless networks technologies (WLAN, WiFi, WiMax), Voice-over-IP, Peer-to-Peer Networks, networking services, Identity Management, and Services Oriented Architecture Management. Prere MET CS 535 or MET CS 625.

This seminar course provides a strong foundation in networking and Internet architecture, data transfer protocols, including TCP, SCTP, QUIC, and IPv6, and a deep look at network resource allocation with an emphasis on protocol independent hardware for Deep Packet Inspection (DPI) and congestion management. The course goes into greater depth of current topics such as: naming and addressing, synchronization, congestion management and resource allocation (routing) and how they manifest in different environments.

Our part-time rates are substantially lower than those of the traditional, full-time residential programs yet provide access to the same high-quality BU education.

Our services include scholarships, graduate loans, and payment plans.

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This certificate program expands professional skills and qualifications in cybersecurity for professionals that hold a degree in Information Science or a related field.

Offered both online and on-campus, the Graduate Certificate in Computer Networking provides you with a coherent foundation in studying, designing, and building state-of-the-art computer networks. You can also tailor your certificate to your unique career interests and goals, gaining knowledge in issues related to mathematical foundations of data transport, network design and analysis, software design and analysis for networking issues, and improving your possibilities for career advancement.

See if an online graduate degree in engineering is the right direction for you.

Engineering Graduate DegreesWith the rapidly changing technological landscape in engineering, an advanced degree is becoming increasingly necessary.

Advance Your Career and Stay on the Job!Our online engineering programs are constructed to advance your expertise and career while staying on the job.

Step towards your goals by adding a certificate or minor to your resume.

Online Graduate Courses Find and register for the online graduate courses for your degree or certificate program.

Keep that career momentum going with our online professional development and continuing education opportunities.

Professional development courses are short-term classes intended for students who want to gain general knowledge, learn a new skill, upgrade existing skills, or develop personal interests.

Academic Calendar and Events.

Our Computer Networking Certificate Program provides students with advanced knowledge and skills in computer networking that large information technology companies desire. The program covers areas including:.

This certificate serves the continuing education role for professionals in the rapidly evolving area of computer networking. The program is designed to enhance your competitiveness, technical knowledge, and resulting working efficiency. It also serves as a stepping stone into our professional coursework-only Master of Engineering programs.

Students can receive the certificate in as little as 9 months by taking two courses a semester. Several of the courses offer hands-on learning experience where the students will be able to perform experiments and use software systems remotely through the Internet.

Students may take up to 9 credits as a non-degree seeking student, so it is possible to begin your studies before formal admittance into the program.

To obtain the Computer Networking Graduate Certificate, students must complete 12 total credit hours of courses, including a 3-credit hour required course and 9 credit hours of elective courses.

If a person who receives a graduate certificate decides to continue for a graduate degree, the person needs to seek approval from that degree program. If the student wishes to continue and get a Master of Engineering in computer engineering, the student must be admitted to the Electrical and Computer Engineering.

Computer Science Electrical and Computer Engineering Mechanical and Aerospace EngineeringEngineering Online Graduate Programs.

Individuals who engineer computer based systems or develop policy and doctrine for these systems where information assurance is an objective require knowledge of the methods, techniques, and tools used in information operations. Information operations include those actions taken to gain, defend, or attack information or information systems. The threats and vulnerabilities are applicable in the commercial as well as the military world.

This certificate provides a solid foundation in communication system concepts, a broad introduction to the entire spectrum of information operations, and advanced study of information assurance topics. The final two courses cover in-depth the protection of information through cryptographic methods and the design and management of systems from a security viewpoint.

CS 2160 Computer Organization and Assembly Language Programming.

Note: Some of these courses may have prerequisites, and any comparable course from another approved university will suffice.

CS 5220 Computer Communications CS 5910 Fundamentals of Computer Network Security CS 5920 Applied Cryptography for Secure Communications CS 6910 Advanced Network and System Security.

Some of these courses may have prerequisites, and any comparable course from another approved University will suffice. Also note that students must earn grades of B or better in all courses to be counted toward the certificate.

Students can be enrolled as an un-classified, non-degree student and use the Un-classified Student Application.

UW-Stout online certificate in cybersecurity is the ideal solution for busy professionals.

The Cybersecurity and Cyber Defense Certificate combines both computer networking and systems administration fundamentals, with a focus on defensive strategies to securing networking infrastructure and systems. The certificate is designed to prepare students for a career in computer networking and security.

The certificate program will help prepare students for the following prestigious industry certifications:.

View the graduate credit course requirements and certificate plan.

To certificate program, please complete the online application form.

Additionally, the following program-specific materials are required at the time of application:.

On October 6, 2017, the University of Wisconsin Stout was designated as a National Center of Academic Excellence in Cyber Defense for academic years 2017-2022 by the National Security Agency (NSA) and the land Security (DHS). UW-Stout is the first four-year university in the state of Wisconsin to receive this prestigious designation.

As a result of the designation, students attending cyber defense programs are eligible to apply for scholarships and grants through the Defense Information Assurance Scholarship Program and the Federal Cyber Service Scholarship for Service Program.

This University of Wisconsin-Stout initiative serves to equip students to deliver excellence in the cyber defense field. The initiative includes serving as a National Center of Academic Excellence (CAE) in Cyber Defense Education, a program jointly sponsored by the land Security and the National Security Agency which the University is currently seeking.

We help produce outstanding graduates.

Through this initiative our graduates will understand key ideas such as data analysis, scripting, fundamental security and information assurance design, cryptography, ethics and compliance, programming, digital forensics, penetration testing, and much . Preparing our students for these demanding responsibilities is of utmost importance.

You'll gain the technical, communication, teamwork, leadership and problem solving skills you need to succeed in the computer networking industry.