5992 Courses

Network management technologies course description A comprehensive tour of the available network management technologies available for todays networks. The course starts with basic tools such as syslog along with Python network automation. SNMP is then covered with the *flow technologies and streaming telemetry. Configuration management with ansible, Python, NETCONF and RESTCONF is then studied. The final part of the course looks at SDN. Hands on sessions are used throughout to reinforce the theory rather than teach specific manufacturer equipment. Note that sections are available as individual courses. What will you learn Evaluate network management technologies. Evaluate network management technologies. Recognise the weaknesses of SNMP versus NETCONF and streaming telemetry. Explain the role of NETCONF and RESTCONF. Compare & contrast *flow and streaming telemetry. Explain the role of SDN in network management. Automate network configuration with ansible and Python. Network management technologies course details Who will benefit: Those wishing to manage networks. (Previous Python experience is NOT needed) Prerequisites: Intro to data comms Duration 5 days Network management technologies course content Basic network management Network management What is network management? Benefits, issues. FCAPS model. Fault management, Configuration management, accounting, performance, security. What to manage, what not to manage. Managing network devices, managing servers. Monitoring networks Traditional network tools Ping..., SSH, syslog, TFTP for configurations. nmap. Wireshark. CLI. Web based management. Splunk. Nessus, snort, Kali. Hands on syslog, network inventories. Network automation using the CLI Programming and automating networks, netOps. Python, Git. Python network modules, SSH, paramiko, netmiko. EVE-NG. Hands onPython network modules. Structured versus unstructured data Problems with automation and unstructured data. XML, JSON, YAML. The role of YANG. Hands on Parsing data. SNMP SNMP architecture, SNMP MIBs, SMI, the SNMP protocol, polling security. Configuring SNMP. SNMPv1, v2, v3, SNMP security. Which version should you use? MIBs and MIB structure. mib-2, extra parts of mib-2, Private enterprise MIBs. Summary: What SNMP is good/bad at. Hands on Configuring agents and a NMS. MIB browsing. Server management Microsoft, Linux, application polling. WMI vs SNMP. Hands on: Application polling. Performance management *flow Polling, push vs pull, netflow, sflow, IPFIX, *flow. Flows. Where to monitor traffic. Comparing *flow with SNMP. Architecture: Generators and collectors. When flows are exported. NetFlow reporting products. SolarWinds. Hands on Netflow configuration. Collectors. Streaming telemetry Model driven telemetry, periodic/on change. Structured data. Telemetry protocol stack. gRPC and gNMI. Protobuf. gNMI operations. Telemetry architecture. Telegraf, databases, Grafana. Hands on Telemetry example. Configuration management Configuration management tools Chef, puppet, ansible, saltstack. Ansible architecture, controlling machines, nodes, agentless, SSH, modules. Inventories, playbooks, modules, network modules, jinja2 templates. Hands on Network configuration with ansible. NETCONF What is NETCONF? Protocol stack, Data stores, traffic flows, validating configurations, rollback. YANG data models and how YANG is used by NETCONF. XML. Explorers and other tools. Hands on anx, Python and NETCONF. RESTCONF The REST API, HTTP, What is RESTCONF? Tools including Postman. Comparison with NETCONF. Hands on Configuration with RESTCONF. Python network automation: configuration SSH issues. Using structured data. Jinja2. ncclient, requests, NAPALM, Nornir. Automated testing. Hands on Python network device configuration with nornir. Software Defined Networks and orchestration Classic SDN What is SDN? benefits. SDN architecture. SDN applications, SDN switches, SDN controllers, Network Operating Systems. Control plane, data plane. Northbound interfaces. SDN components. Southbound interfaces. OpenFlow. ONF, OpenFlow ports, Flow tables. Network virtualization Virtual networks, virtual switches, NfV. Service chaining. NfV and SDN. SDN implementations Classic SDN, Hybrid SDN, SDN via APIs, SDN via overlays. Data centre SDN, VXLAN, Service Provider SDN, SD WAN, Enterprise SDN, WiFi. SDN and open source OpenDaylight, OpenVSwitch, Open Networking Forum, Open Network Operating System. Hands onOpenStack. SD-WAN What is SD-WAN? Architecture: Edge, gateway, orchestrator, controller. Overlay and underlay. Use of MPLS, 4G/5G. Benefits and features. Secure Access Service Edge (SASE).

GPON and FTTx networks training course description Designed to benefit those requiring an in depth knowledge of the principles and applications of Ten Gigabit and Gigabit Passive Optical Networking and Fibre to the X in NG Networks applications and their associated equipment, its flexibility and function within a modern transmission network. Using an effective mix of 'hands on' equipment instruction and correlation to theory based learning the delegate will gain a complete understanding of the equipment and the tasks to be undertaken in a real life situation. What will you learn Compare PON/FTTx systems. Explain network elements and designs. Support applications and network interfaces. List circuit provisioning and bandwidth requirements. Understand upstream & downstream issues. Describe headend & network elements/OLT-ONT. Perform network testing with OTDR test sets. GPON and FTTx networks training course details Who will benefit: Anyone working with GPON and FTTx. Prerequisites: Introduction to data communications and networking. Duration 5 days GPON and FTTx training course contents FTTN, FTTC, FTTH SMF, MMF, Fibre safety and properties (dispersion/attenuation), Fibre reel cables and types, Fibre installation and air blown fibre, Transmitters and receivers - power budget/laser classes. Fibre to the home (FTTH), FTTC (Fibre to the Cabinet), FTTN (Fibre to the node) , FTTD (Fibre to the desk), FFTH topologies and wavelengths, Active or passive optical network. WDM equipment and GPON OSP design Wavelength considerations, WDM/DWDM/CWDM, EDFA optical amplification, AWG (Arrayed Waveguide Grating) splitters , Couplers (splitters) and losses, Optical splitters 1x2, 1x4, 1x8, 1x16, 1x32, 1x64, 2x64. PON variants Gigabit passive optical network (GPON), Gigabit Ethernet passive optical network (GEPON), Time division PON (TDM-PON), Wave Division Multiplexing PON (WDM-PON), 1Gbps, 10Gbps, 40Ggps, 100Gbps FSAN (Full Service Access Network) NGA (Next Generation Access), Strategies for TDM-PON to WDM-PON migration, Architecture of NG-PON (hybrid WDM/TDM PON), Additional services than triple play. GEPON design GPON OSP centralized and distributed design, GPON PON splitters x4 x8 x32, Fibre splice trays /cassette trays & enclosures, GPON field testing and installation verification, GPON physical layer testing, Optical time domain reflectometer (OTDR), Optical power source & meter, Optical return loss (ORL), APON/BPON/GPON/EPON comparisons. GPON ITU-T G.984.1 Reference model, terminology & architecture, Access network system management functions. ONT & OLT functional block examples. FTTx scenarios, 4 switching arrangements for external access network backup. GPON ITU-T G.984.2 Physical layer, Enhancement band, Bit rate and wavelengths, FEC and RAMAN. GPON ITU-T G.984.3 Frame structure, GPON encapsulation method (GEM), GTC adaptation and framing sublayer protocol stack, Status reporting & traffic monitoring DBA (SR-DBA & TM-DBA), Transmission container (T-CONT) types, Downstream & upstream multiplexing, GEM port identifier, Media access control and ONU registration, Extended bandwidth assignment model scheduling architecture, PLOAM & alarm messages, Downstream & Upstream FEC, Process order in a GTC transmit flow. GPON ITU-T G.984.4 and G.988 ONT management and control interface (OMCI) Management interface, Reference model, Typical ONT with SCTE 55-1 or SCTE 55-2 compliancy. GPON ITU-T G.984.5 enhancement band Band options, GPON NGA, Wavelength allocation. GPON ITU-T G.984.6 optical reach extension (G.984.re) Reach extension (RE), OA-based and OEO-based reach extenders, Protection, Reach extender with OTDR blocking filters (BF) and bypass (BYP) filters. GPON ITU-T G.984.7 long reach Quiet Window. 10-GPON ITU-T G.987.1 (XG-PON) Scenarios, reference access network architecture, XG-PON with G-PON through WDM1r, G-PON and XG-PON wavelength allocation, G-PON and XG-PON co-existence with video overlay option, RE migration scenarios. G.989 40Gbps XG-PON2 Functional reference architecture, NG-PON2 system coexistence with legacy systems, Definitions of legacy compatibility terminology. GPON issues and standards GPON components GPON OLT / GPON ONT, GPON management, Operational support systems (OSS), Network management systems (NMS), OMCI (ONT Management control interface), RG (Residential gateway), Data and prioritised voice channel product, GPON broadband-forum standards, Broadband-forum , TR-069 and TR-156, HPNA (home phone network alliance), Powerline carrier (PLC), GPON DLNI G.hn or G.9960, MOCA, FTTH council certification standard for network certification. Fibre-connected home badge, Ethernet in the first mile (EFM), GPON frame synchronization to network timing, Direct clock synchronization interface (BITS), Multiservice access platform (MSAP), Software planning tool, Superconnected cities / voucher scheme. Hands on practical assignments Single and multimode fibre recognition, Fibre Cleaning methods, Checking cleaning with an optical microscope, Optical light source and optical power meter referencing, PON splitter and fibre drum testing with an optical power meter, 6km classroom passive optical network testing with an OTDR at 1310/1550nm, Using decibels (dB's) and decibel milliwats (dBm's), Designing networks up to 20km long using vendor specifications (power budget), Fault finding with a visible fault locator.

Course Information In today's evolving landscape, pharmacovigilance (PV) systems face ongoing challenges due to global, national, and company-specific events. This course focuses on developing personnel equipped to navigate these complexities and improve the safe use of medicinal products. We emphasise continuous global thinking, communication, and strategic planning, ensuring adaptability across various levels. The course explores maintaining PV system functionality while adhering to regulatory requirements. Participants will apply European regulatory standards to enhance and sustain PV system effectiveness, contributing to improvement initiatives and ensuring operational integrity. The course covers PV system intricacies, regulatory compliance, and a 'systems approach' for auditors, quality assurance personnel, and PV practitioners. Through presentations and workshops, attendees gain insights into implementing and maintaining an effective PV system. Who should attend? Auditors Pharmacovigilance Quality System Managers Pharmacovigilance scientists The QPPV. Course benefits Throughout the course delegates will explore application of the legal requirements for the PV system and quality system and how to assure these systems. They will demonstrate their ability to contribute to: A systematic investigation of the pharmacovigilance system and its quality system Examination of how the pharmacovigilance system and quality system interact to achieve compliance. The risk-based approach to auditing the PV system and quality system The maintenance of 'inspection readiness' Explore how to investigate the complex PV system Discussions about how to monitor and maintain the PV system and assure compliance. Course Objectives Clarify what has to be done: Explore application of the legal requirements. Explore how to do what has to be done: Adopt a systemic approach to systematically investigate or implement and maintain the PV system and quality system Examine how a compliant PV system and a compliant quality system interact to achieve compliance with regulatory requirements for PV Explore how to investigate the complexity of the PV system. Discus how to identify what is missing or what needs to be improved: Discuss how to monitor and maintain the PV system and assure compliance. This course will assist delegates with: An understanding of key system principles, A practical approach to implementing, maintaining and monitoring the PV system and its quality system A procedure to share expertise to increase efficiency and confidence. This course is structured to encourage delegates to: Discuss and develop ideas - Share knowledge and experiences - Solve specific problems.  By the end of the course delegates will be able to: Understand better the pharmacovigilance system, its quality system and how the components interact to achieve the objectives of pharmacovigilance Investigate, and analyse the pharmacovigilance system and to identify what is missing and what needs to be improved. Tutors Tutors will be comprised of (click the photos for biographies): Jana Hyankova Head of PV Department, IVIGEE Services a.s. Programme Please note timings may be subject to alteration. Day 1 08:30 Welcome, registration, course objectives and introduction to work groups Housekeeping notices, meet other delegates, explore how to work in your work group, course objectives. Clarify the definition and objectives of Pharmacovigilance. 09:30 The Regulatory Framework for Pharmacovigilance Identify the relevant regulations and directives. Explore GVP guidance, structure of the modules and standard format of each module. 10:00 The Pharmacovigilance System Exploration of how to organise what has to be done, communications. Exploration of the structures and processes for pharmacovigilance. 10:30 Break 11:00 Workshop 1 and Feedback Exploring an organisational model of the pharmaceutical company- cooperation between PV and other stakeholders. 12:00 The Quality System for pharmacovigilance Exploration of the structures, processes for the PV quality system and discussion of how it interacts with the pharmacovigilance system to meet the objectives of pharmacovigilance effectively and efficiently. 13:00 Lunch 14:00 Workshop 2 and Feedback The quality system puzzle. Explore the organisation of the PV quality system and how it interacts with the PV system. 14:30 The Quality System for pharmacovigilance Exploration of the structures processes for the PV quality system and discussion of how it interacts with the pharmacovigilance system to meet the objectives of pharmacovigilance effectively and efficiently. 15:00 Description of PV System 15:30 Break 15:30 Workshop 3 and Feedback The quality system puzzle Explore the organisation of the PV quality system and how it interacts with the PV system. 16:00 The Pharmacovigilance Safety Master File Construction of the Pharmacovigilance System Master File and its purpose. 17:00 Workshop 3 and Feedback Description of PV System. 18:00 End of Day Day 2 08:30 Drug Safety in the Clinical Trial Environment - Part 1 Information flow and responsibilities of the sponsor. 09:30 Workshop 4 and Feedback Drug Safety in the Clinical Trial environment: Information flow and responsibilities of the sponsor. 10:30 Break 11:00 Drug Safety in the Clinical Trial Environment - Part 2 Information flow and responsibilities of the sponsor. 12:00 Lunch 13:00 Workshop 5 and Feedback Drug Safety in the clinical trial environment: Information flow and responsibilities of the sponsor. 13:30 Processing of Safety Data Exploration of safety data processing, verification, validation, follow up, formatting and collation, reporting requirements, quality and data management. 15:00 Break 15:30 EudraVigilance Exploration of how EudraVigilance supports the PV system. 16:15 Signal Detection and Evaluation/Risk Benefit Assessment: Pharmacovigilance Risk Assessment Committee (PRAC): What is a signal? What are the regulatory requirements? How is signal detection and evaluation conducted? Qualitative and quantitative methods of signal detection. Risk benefit assessment. 17:00 Risk Management Plans A cornerstone of Pharmacovigilance safety communications, direct healthcare professional communication 18:00 End of Day Day 3 08:30 The Pharmacovigilance Risk Assessment Committee (PRAC) Exploration of how good practice is achieved. Composition, role and responsibilities. Examples of referrals. 09:15 Development Safety Update Reports (DSURs): Regulatory requirements, exploring good practice, report format, reference safety information, schedule of submission, analysis evaluations and distribution. 10:00 Periodic Safety Update Reports (PSURs)/Periodic Benefit Risk Evaluation Reports (PBRERs) Regulatory requirements, exploring good practice, report format, reference safety information, schedule of submission, analysis evaluations and distribution. 10:30 Break 11:00 Periodic Safety Update Reports (PSURs)/Periodic Benefit Risk Evaluation Reports (PBRERs) Regulatory requirements, exploring good practice, report format, reference safety information, schedule of submission, analysis evaluations and distribution. 12:00 Workshop 6 and Feedback To explore the compilation and submission of the PSUR. 13:00 Lunch 13:30 Role of the QPPV Exploration of the legal responsibilities of the QPPV and the MAH. 14:30 Break 15:00 Workshop 7 and Feedback To explore the challenges faced by the QPPV. 15:30 End of course Extra Information Face-to-Face Course Course material This course will be run completely online. You will receive an email with a link to our online system, which will house your licensed course materials and access to the remote event. Please note this course will run in UK timezone. The advantages of this include: Ability for delegates to keep material on a mobile device< Ability to review material at any time pre and post course Environmental benefits – less paper being used per course Access to an online course group to enhance networking You will need a stable internet connection, a microphone and a webcam. CPD Points 23 Points   Development Level Develop

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