After that the ASTER Master License will be removed from the computer and you can use it for creation of the next set of clone computers for another contract/purchase order for your hardware and software system.
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An (almost) auto ASTER activation takes place in initial startup of ASTER Control on the clone computer if software finds out the Master License on disk. If the Master License was created without password protection only a proposal to activate ASTER will be displayed. If the master license in the course of creation was password protected you have to enter this password. After entering the password (if need be), and pressing the Activate button, all that is needed from the operator is to click to confirm elevation of privilege up to the administrator level. Further activation will be made automatically in unattended mode.
As a rule, this hotkey is rarely used since no need to use it arises. However, certain software (for example, Adobe products) may use this key combination. As the ASTER driver catches it faster than the software, it may entail inconvenience. The computer context menu on the tab Terminals of the ASTER Control program has a menu item Keyboard/Mice switch hotkey which allows either for reassigning this key combination or disabling it at all.
The AXI Quad Serial Peripheral Interface connects the AXI4 interface to those SPI slave devices which are supporting the Dual or Quad SPI protocol along with Standard SPI protocol instruction set. As an example, this core provides a serial interface to SPI slave devices such as SPI serial flash from Winbond/Numonyx which support Dual and Quad SPI protocol along with Standard SPI interface. The Dual/Quad SPI is the enhancement to the Standard SPI protocol that delivers a simple method for a master and a selected slave to exchange data.
Whether you are an industry professional, student, or teacher, if you are looking for a way to get more familiar with CAD/CAM software, Learning Edition delivers the full suite of Mastercam with few restrictions.
When a new version of Mastercam is released, simply uninstall your current Demo/HLE and request a download of the most recent software, so you can keep up with the latest features and functionality.
Whether you want to see if Mastercam has the tools you need for your business or you want to practice Mastercam at your own pace and learn on your own time, the free Demo/HLE allows you to explore a comprehensive software package.
We recommend using Windows 10 (version 20H2 or later) or later 64-bit Professional editions. While Mastercam may run on other Windows editions (such as Home Edition) or virtual environments (such as Parallels for Mac), it has not been tested on these configurations and is therefore not supported.
Mastercam 2021 was the last release to officially support Windows 7 as Microsoft ended extended support for the OS in January 2020. Mastercam 2022 will install on Windows 7 systems but will not be supported. Future versions of Mastercam will not install on Windows 7.
The processor speed will impact how fast the software will calculate and complete tasks. With each release, more and more aspects of Mastercam are becoming multi-core processor aware. Toolpath calculation and Simulation will generally run faster with a multi-core processor. We typically see a 50% reduction in toolpath calculation time with the latest Intel i7 or Xeon processors.
When Mastercam uses all available RAM, it switches to using virtual memory space, which is stored on the hard drive and will dramatically slow the system down. We recommend a minimum of 8 GB of memory. For large toolpath generation and simulation, we recommend 32GB of RAM.
We do not recommend or support the use of onboard graphics found with some PC configurations. These do not generally have the capability to drive graphics intensive applications such as Mastercam and can lead to system instability.
The latest drivers for NVIDIA and AMD can be found at the online links. We recommend using the automatic detect feature to detect which video card is installed. More information on configuring the graphics card can be found at this Mastercam knowledge base article.
Most of our internal systems utilize dual monitors and we find this to be a more productive setup. Mastercam displays on the primary monitor while applications such as Mastercam Simulator, Code Expert, or Tool Manager display on the secondary monitor.
The minimum recommended resolution for the primary display is 1920 * 1080 resolution typical of widescreen monitors available today. Mastercam will run on lower resolution screens but beware of potential sizing issues with larger dialog boxes and panels which may be awkward to work with. Lower resolution monitors may work fine as a second monitor in a dual screen setup.
Most computers today have some kind of anti-virus software to protect from unwanted malware. In some cases, these have been found to interfere with applications such as Mastercam which are running on the computer. CNC Software does not recommend specific anti-virus products, but if you see unexpected issues, it may be a conflict with anti-virus software. Try temporarily disabling the anti-virus software or setting an exception for Mastercam.
In its first versions, the CDR file format was a completely proprietary file format primarily used for vector graphic drawings, recognizable by the first two bytes of the file being "WL". Starting with CorelDraw 3, the file format changed to a Resource Interchange File Format (RIFF) envelope, recognizable by the first four bytes of the file being "RIFF", and a "CDR*vrsn" in bytes 9 to 15, with the asterisk "*" being just a blank in early versions.[54] Beginning with CorelDraw 4 it included the version number of the writing program in hexadecimal ("4" meaning version 4, "D" meaning version 13). The actual data chunk of the RIFF remains a Corel proprietary format.
@0001.ADF - Internal Options for the C&T 250 Chipset Corrupted file!@0011.ADF - Internal Options for the C&T 250 Chipset Corrupted file!@0012.ADF - Internal Options for the C&T 280 Chipset Corrupted file!@0021.ADF - End-user features for the C&T250 chipset@0022.ADF - End-user features for the C&T280 chipset Corrupted file!@0025.ADF - SUPERFAX MODEM ADAPTOR@002D.ADF - Madge 16/4 MC Ringnode Version 1.04@002D.ADF - Madge 16/4 MC Ringnode Version 1.02@0035.ADF - G.V.C. 1200 BAUD 50/60 MODEM@0036.ADF - G.V.C. 2400 BAUD 50/60 MODEM@003C.ADF - SBA System Bus Adapter for Union@0041.ADF - 3Com 3C-527 EtherLink/MC 32 NoDMA parameter (used by bus masters)@0041.ADF - 3Com EtherLink/MC 32 Ethernet Adapter Lacks the NoDMA parameter, older version?@004E.ADF - NCR SCSI Host Adapter Board@004E.ADF - NCR 53C700 SCSI Controller Later version@004F.ADF - NCR 53C710 SCSI Host Adapter Board@0050.ADF - Cabletron 4/16-Mbps Token Ring Adapter@0051.ADF - Thomas-Conrad TC4046 TR-Adapter@0061.ADF - NCR Dual Channel Ethernet MCA Adapter@0061.ADF - NCR Dual Channel Ethernet MCA Adapter Different spacing@0069.ADF - Network Peripherals FDDI Adapter@006E.ADF - Aox MicroMASTER 386 32bit ADF v1.5I006E.ADF - Init file for @006E.ADF@006F.ADF - Aox MicroMASTER 486 ADF v1.5I006F.ADF - optional Init file for @006F.ADF - see inside ADF@0070.ADF - Cabletron Systems Inc. F3069 FDDI Adapter@0074.ADF - Madge 16/4 MC32 Ringnode@0083.ADF - SK-NET FDDI-FM/FDDI Network Adapter @0086.ADF - Orchid Pro II/MC v2.0/HiColor@0086.ADF - Orchid Pro II/MC - Tandberg Data Less options. Different adapter or different ADF version?@008E.ADF - Kingston MC MASTER 486 ADF v2.23 I008E.ADF - Init file for @008E.ADF@0092.ADF - NCR 53C700 SCSI MCA Adapter @0092.ADF - NCR 53C700 SCSI MCA Adapter Different spacing@0098.ADF - NCR MC Comms. I/F Adapter - MCIA-2@00A4.ADF - SUPERFAX MODEM ADAPTOR@00C4.ADF - Racore 16/4 Token-Ring Adapter@00C5.ADF - Racore 16/4 Token-Ring Adapter@0100.ADF - NCR 16/4 Token-Ring Adapter/MC @0101.ADF - Proteon p1840 ProNET-4 Network Adapter @0125.ADF - SUPERFAX MODEM ADAPTOR@0130.ADF - Proteon p1892plus 4/16 Mbps Token Ring Adapter@01B2.ADF - Cogent E/MASTER III MCA 32-bit Ethernet Adapter@01BA.ADF - NCR 53C710 SCSI Controller@01BA.ADF - NCR 53C710 SCSI Controller Different spacing@01BA.ADF - NCR Dual SIOP SCSI Host Adapter Board Different adapter or different ADF version?@01BA.ADF - NCR Dual SIOP SCSI Host Adapter Board Different ADF version@01BB.ADF - NCR 3360 SCSI SubSystem@01DB.ADF - Corvus Omninet I Transporter@0200.ADF - Phoenix Board Setup File@0202.ADF - Proteon p1890 4/16 Mbit/S Token Ring Adapter @0230.ADF - NCR MC Comms. I/F Adapter MCIA@0280.ADF - Systech 6280 Host Adapter@0280.ADF - Systech 6280 Host Adapter Different spacing@0300.ADF - NCR SIMPL SCSI Host Adapter Board@0300.ADF - NCR SIMPL SCSI Host Adapter Board Different spacing@0301.ADF - SCSI-2 Host Adapter Various manufacturers@0425.ADF - SUPERFAX MODEM ADAPTOR@04FF.ADF - Viking PS2 Display Controller@0500.ADF - CORE CNT-MCK Fixed Disk Adapter Special version to enable 12WB and CHRDY.@0500.ADF - CORE CNT-MCK Fixed Disk Adapter Less options, always sample CHRDYRTN. Possibly manually fixed but incomplete?@05FF.ADF - Viking PS2-1600 Display Controller@0700.ADF - Proteon p1892 4/16 Mbps Token Ring Adapter Version 1.12@0700.ADF - Proteon p1892 4/16 Mbps Token Ring Adapter Version 1.10, different text, additional Arb. Level 4@0708.ADF - BusLogic 32 Bit Busmaster SCSI Host Adapter @0708.ADF - BusTek BT-640A MCA-to-SCSI Host Adapter Earlier card@0708.ADF - Storage Dimensions SDC3211B SCSI Host Adapter Earlier card, different brand@0709.ADF - Storage Dimensions SDC3211F FAST SCSI Adapter@0720.ADF - NCR 53C720 SCSI Adapter@0803.ADF - Madge MCA Ring Node@0808.ADF - BICC ISOLINK IEEE 802.3 Network Adapter@080E.ADF - Madge MC Ringnode 2nd generation@0817.ADF - Relays - I/O BOARD@0A0A.ADF - SUPERFAX MODEM ADAPTOR@0A84.ADF - Pure Data MC 16/4 Token-Ring Network Adapter@0A84.ADF - Olicom Token-Ring MCA 16/4 Adapter - OC-3129 Same card@0A85.ADF - Intel TokenExpress(tm) 16/4 MCA Network Adapter@0A85.ADF - Olicom Token-Ring MCA 16/4 Adapter - OC-3129 Same card@0A85.ADF - Pure Data MC 16/4 Token-Ring Network Adapter Same card@0A86.ADF - Pure Data MC 16/4 Token-Ring Network Adapter@0A86.ADF - Olicom Token-Ring MCA 16/4 Adapter - OC-3129 Same card@0C83.ADF - Olicom PC/MC Token-Ring Network Adapter@0EFF.ADF - BNR PSDO Card@0F1F.ADF - Adaptec AHA-1640 SCSI Host Adapter @0F1F.ADF - Storage Dimensions SDC1611 16-bit SCSI Adapter Same cards, different brands@0F1F.ADF - Tecmar SCSI Tape Adapter Same cards, different brands@0F2F.ADF - Lantana Technology Cypress/2 Token Ring MCA@0F5F.ADF - Multisync Graphics Engine@0F5F.ADF - EIZO GC40 Different name, different I/O info for one choice, slightly different text.@0F5F.ADF - GSS MC1000 Different name, otherwise almost the same.@0F5F.ADF - GSS MC1000 Different choice order, different NumBytes value (no effect?)@0F7F.ADF - PSconnect@0FC7.ADF - Wizard Attached Processor@0FC7.ADF - Wizard Attached Processor Different fixed resourcesI0FC7.ADF - Init file for @0FC7.ADF@0FCC.ADF - D-Link Ethernet Card DE300@0FCC.ADF - D-Link Ethernet Card One additional I/O Port Selection@0FCD.ADF - D-Link Ethernet Card DE300@0FCE.ADF - D-Link ARCnet Card@0FDF.ADF - NI9210 Micro Channel Network Controller 2ff7e9595c
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