Describes the changes in Microsoft System Center Configuration Manager current branch, version 1706. Microsoft System Center 2012 Configuration Manager lets you manage PCs and servers, including updating their software. IDR Series Allen Heath. Introduction to IDRi. DR 4 and i. DR 8 are 1. Allen Heath preamps, 2. DSP architecture ensure that concert quality low latency sound is delivered efficiently to where it is needed. Anyone with a basic knowledge of traditional console and outboard equipment will be able to design a distributed audio system on their PC using the mixer based i. Configuration Manager Software Metering Reporting' title='Configuration Manager Software Metering Reporting' />System Center Configuration Manager provides maximum control over quality and feature updates for Windows 10. System Center Configuration Manager is designed for extensibility, and the Parallels Mac Management plugin was built to help expand and enhance System Centers. Welcome to TESCO. TESCO The Eastern Specialty Company The trusted source for electric meter testing equipment and metering accessories for over 100 Years. DR System Manager software. DR comes loaded with flexible DSP tools, essential in sound system configuration and installation. Input output delays, 4 and 8 band parametric EQ, automatic microphone mixing, frequency conscious dynamics, look ahead limiter, ambient noise compensator, crossfader and much more are available at your fingertips without having to worry about running out of DSP. Its system of presets allow for full recall of the whole system or individual parameters at the touch of a button. After programming, the i. DR unit operates as a stand alone system controller, with a host of remote control devices available for day to day operation. The PL Series complements the powerful features of i. DR and comprises wall plates, infra red hand held or desk mount controllers connecting to the main unit using CAT5 cable over the RS4. PL Anet protocol. All the major third party devices may also be used to control i. DR. For complex systems, the i. DR system can be driven in real time by a PC via an Ethernet port, allowing the i. DR to be used in hirelive audio situations such as matrix distribution in theatres, or clean feed system for an outside broadcast. Why not connect a Wi. Fi card to your laptop, connect to the internet, set up your system and save your settings on the move Stay in control from anywhere in the worldDR Key Features. Network control. The main i. DR units can be easily controlled and programmed with an Ethernet connection to a PC or MAC running OSX PC simulator. All i. DR units on a network can be seen by more than one computer, with optional password protection so that operators can be observed by a technician running i. DR System Manager software or PL Client software anywhere on the network or World Wide Web. DR can even output a log of its activities to an email address TCPIP devices such as Wi. Fi can be used for example, a wireless laptop can be used to commission or update the sound system from exactly where the technician needs to monitor it. Preset Systemi. DR provides a system of up to 2. A preset can contain the settings for all system devices, e. EQ or fader gain level. A recall crossfader is provided to fade between different preset levels. Crack Do Theme Park Accidents. Scheduled preset recalls are available, timed from the i. DR internal clock. Preset recalls can be triggered from Allen Heath equipment PL controllers other i. DRs or i. DR Switch or via the serial, MIDI and Telnet ports using third party equipment. PL Anet. The PL Series is the perfect interface between the i. DR and the operators on site, providing simple, non technical switch, indicator display, fader, IR and encoder control options. Furthermore, as the requirements grow at an installation, the control system can too. PL remotes can simply daisy chain or use the PL Anet hub for star wiring applications, and all cabling is CAT5. You as the designer can customize these plug n play remotes to do exactly what the customer needs. Each PL has its own simulator in i. DR System Manager software, so you can design and demo the system offline as it will appear when the hardware is in place. Automatic Level Managementi. DR is equipped with several powerful modules to manage a distributed sound system, so an operator or technician doesnt always need to be present. For instance Microphones in a conference situation can be controlled by any one of the four on board AMMs, so that as more open microphones join in, the gain of the sum is reduced to prevent feedback occurring. A comprehensive Ducking system is provided with adjustable priorities. Ambient Noise Compensator ANC enables the output level in a zone to be automatically managed in relation to the signal level of the changing background noise level Level Sensing provides a logic or soft LED output when a pre set signal threshold is reached, which triggers indicators and other hardware to respond this allows operations such as camera following. Paging switches and indicators can be triggered via A H controllers alternatively, custom paging panels can be created and interfaced with the system. Expandability. As the system requirements grow, additional i. DR units or expanders can be added to suit the budget and application. DR 8 and i. DR 4 have 8 bus digital expansion ports RJ4. DR In or i. DR D in input expander, or an i. DR Out or i. DR D out output expander. The CAT5 cables allow the units to be placed at distances up to 2. DR In to provide 8 XLR micline inputs in a function room on a different floor to the control room containing the main i. DR unit, or, similarly, the i. DR Out could be configured as a four way stereo XLR output to an amp rack located at the side of a theatre stage. Furthermore, the 8 bus link can be used to distribute signals around a complex network where i. DR units communicate via TCPIP here, interbox paging and routing is possible. Audio Quality. Low latency 2. DSP architecture ensures that the i. DR system will distribute coherent audio. Mic preamp gain is controlled in analogue under software control so levels can be optimised in real time if needed. DR 8 has a hardware limiter before the A D converter so that the contractor can have confidence in the signal integrity, even if input levels exceed what was expected. Signal Processing. The i. DR 4 i. DR 8 signal processing architectures provide 1. Using the DSP patchbays, the user can configure these channels to either analogue inputsoutputs or to channels on the digital audio expansion port. Because of the fixed architecture, you do not need to assign DSP into the signal path, or worry about having enough DSP available to do the job. In i. DR, we have given you the tools you need such as noise gates, compressors, delays, parametric EQ and look ahead limiters, to start working with live audio straight away. Adjustments are made in real time as there is no compiling to do, and our unique monitor buss allows you to listen to any point in the signal path. Copy and paste any DSP settings to quickly build up a design, save it as a configuration file, and use it as a template for other systems. MIDIi. DR 8 is equipped with MIDI inoutthru and custom MIDI commands can be output as presets and recalled on the i. DR. This allows other audio devices such as samplers and processors to be controlled from the main unit. For example, dynamic MIDI control from faders, rotary controls and keys in the i. DR system could interface with a DMX controller, so that basic lighting control can be programmed into i. DR and run from the PL series remote controllers. DR Communication Portsi. DR can communicate with many forms of equipment. For example, i. DR switch units, i. DR in and i. DR out expanders, third party controllers, PL Series intelligent wall plates, MIDI show controllers, PCs, networks and modems. Up to 4 communications ports can be used at once network and DR link ports are always available, with two more selected from RS2. Sys Net, MIDI and PL Anet. Rear panel LEDs clearly indicate active ports for rapid communication status checking. Permanent Protocols. Port. Protocol Type. Uses. Network RJ4. CAT5i. DR System Manager Telnet TCPIP Wi. Fi Email. Table Cell. DR Link RJ4. 5 CAT5DR Link. Links the i. DR In and i. DR Out audio expanders and i. DR Switch to the i. DR units for logic control. Port. Protocol Type. Uses. Sys Net. Inconcert AMX RS2. For third party controllers such as AMX, Crestron, Cue and many more. Touch screens, Infra red devices etc can be utilised with i. Configuration Manager 2. Implementation and Administration Sample Organization. This chapter walks through the steps necessary to deploy, configure, and administer key Configuration Manager 2. This functionality includes deploying and administering the roles and features needed to enable operating system deployment, systems configuration management, patch management, software provisioning, asset management, and reporting. This chapter is from the book System Center Configuration Manager Config. Mgr 2. 01. 2 helps reduce the cost of managing the Windows infrastructure by providing scalable, secure, end to end administration and reporting functionality for the enterprise. It is important to fully understand the architectural design before Configuration Manager 2. This chapter walks through the steps necessary to deploy, configure, and administer key Configuration Manager 2. This functionality includes deploying and administering the roles and features needed to enable operating system deployment, systems configuration management, patch management, software provisioning, asset management, and reporting. To illustrate the implementation and administration of Configuration Manager 2. Company XYZ will be used. This will provide a backdrop of reality against which the Configuration Manager 2. Existing Environment. Company XYZ is headquartered in San Francisco with offices in Paris, London, Tokyo, and New York City. The company has over 3,0. San Francisco and Paris. London and Tokyo are medium sized branch offices. Finally, the New York office is a very small office with only a handful of employees. There is a network connection between the San Francisco and Paris offices. London and Tokyo connect to the Paris office. New York is connected to the separate San Francisco office. Figure 3. 1shows the corporate wide area network WAN topology. The company has a single Active Directory forest and domain. The domain name is companyxyz. DC1. Each office has its own Active Directory site in the Active Directory site topology. Table 3. 1 summaries the location information. Table 3. 1 Company XYZ Location Information. Location. AD Site. Network. Users. San Francisco. SFO1. 0. 1. x. x. Paris. PAR1. 0. 4. London. LON1. 0. 2. Tokyo. TOK1. 0. 5. New York. NYC1. 0. The San Francisco office has the central IT organization that covers the entire Company XYZ organization, but the Paris office also has a smaller IT organization that covers the Paris, London, and Tokyo locations. The Paris office has significant autonomy and needs administrative control over its infrastructure due to regulatory concerns. This information will be used to inform the Configuration Manager 2. Developing a Configuration Manager 2. Design. Based on the Company XYZ existing environment, the recommendation would be to have a Primary Site Server in San Francisco and a Primary Site Server in Paris based on the local IT presence and the requirement for local administrative control. The recommendation would be to place Secondary Site Servers in London and Tokyo based on the size of the offices. Given the small size of the New York office with only five users, no servers will be placed there. Table 3. 2 summarizes the locations, server roles, and server names needed for the infrastructure. Table 3. 2 Company XYZ Configuration Manager 2. Design. Location. SCCM Site. Site Code. Server Name. San Francisco. Central Administration Site. XYZCM1. Primary Site. SFOCM2. Paris. Primary Site. PARCM3. London. Secondary Site. LONCM4. Tokyo. Secondary Site. TOKCM5. New York. NYCFigure 3. 2 shows a diagram of the recommended Configuration Manager 2. The balance of this chapter implements and configures the Configuration Manager 2.