, but this code // executes before the first paint, when

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is not yet present. The // classes are added to so styling immediately reflects the current // toolbar state. The classes are removed after the toolbar completes // initialization. const classesToAdd = ['toolbar-loading', 'toolbar-anti-flicker']; if (toolbarState) { const { orientation, hasActiveTab, isFixed, activeTray, activeTabId, isOriented, userButtonMinWidth } = toolbarState; classesToAdd.push( orientation ? `toolbar-` + orientation + `` : 'toolbar-horizontal', ); if (hasActiveTab !== false) { classesToAdd.push('toolbar-tray-open'); } if (isFixed) { classesToAdd.push('toolbar-fixed'); } if (isOriented) { classesToAdd.push('toolbar-oriented'); } if (activeTray) { // These styles are added so the active tab/tray styles are present // immediately instead of "flickering" on as the toolbar initializes. In // instances where a tray is lazy loaded, these styles facilitate the // lazy loaded tray appearing gracefully and without reflow. const styleContent = ` .toolbar-loading #` + activeTabId + ` { background-image: linear-gradient(rgba(255, 255, 255, 0.25) 20%, transparent 200%); } .toolbar-loading #` + activeTabId + `-tray { display: block; box-shadow: -1px 0 5px 2px rgb(0 0 0 / 33%); border-right: 1px solid #aaa; background-color: #f5f5f5; z-index: 0; } .toolbar-loading.toolbar-vertical.toolbar-tray-open #` + activeTabId + `-tray { width: 15rem; height: 100vh; } .toolbar-loading.toolbar-horizontal :not(#` + activeTray + `) > .toolbar-lining {opacity: 0}`; const style = document.createElement('style'); style.textContent = styleContent; style.setAttribute('data-toolbar-anti-flicker-loading', true); document.querySelector('head').appendChild(style); if (userButtonMinWidth) { const userButtonStyle = document.createElement('style'); userButtonStyle.textContent = `#toolbar-item-user {min-width: ` + userButtonMinWidth +`px;}` document.querySelector('head').appendChild(userButtonStyle); } } } document.querySelector('html').classList.add(...classesToAdd); })(); Facilities - Computer Science | 茄子视频

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Facilities

Because most department courses use either open-source software or software tools that are free for academic use, you can generally configure your own machine to support the course work. This work for any machine running Linux, Windows, or Mac, provided that the machine is relatively current. Fast processors and solid-state drives are recommended.

Beyond student-owned machines, the department provides a variety of other facilities.

Class-Lab Facilities

  • Computing Lab: a 34-seat facility of custom, multi-boot (Linux, Windows) workstations.
  • Hardware Lab: a lab for assembling and/or diagnosing computer hardware.
  • Systems Lab: Systems Lab, a 24-seat specialized lab for OS, networking, and security work.

Research Facilities

  • SB321B: Server room and supercomputer.
  • Supercomputing Lab: This lab is the home of the department鈥檚 beowulf clusters.
  • CCEL Lab: This lab is the 鈥渂rick and mortar鈥 division of the .

For a complete list of software services supported by the department, see the page.

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