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Property public int Length { get; } public long LongLength { get; } public int Rank { get; } public object SyncRoot { get; }
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captured separately and then combined to create a full color image. saturation sharpening The amount of color in a specific hue. A function in digital darkroom software, some cameras, and some scanners
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A protocol analyzer is a standalone unit that can be moved from one network segment to another relatively easily. It simply attaches to the network, captures data, and analyzes information contained in the frames it captures. A protocol analyzer is used as an in-depth troubleshooting tool. Its primary function is to capture, decode, and display data frames and all of the information they contain at each of the various protocol layers (Figure 15.4). Basic functionality includes capture filtering (selectively capturing frames based on address, protocol type, pattern match, and other criteria); display filtering (selectively displaying captured frames based on address, protocol type, pattern match, and other criteria); triggering (taking a specified action based on the occurrence of some specified event); and post-capture searching and analysis functions. Most protocol analyzers also analyze data traffic and report various statistics about that traffic. Common statistical measurements include percentage utilization, data throughput, packet rate, error rate for a number of different error types, collision rate, top talkers, and protocol distribution. These statistical measurements are particularly valuable for characterizing network performance. Besides statistical analysis and data capture, some protocol analyzers provide expert analysis and other applications that are designed to help troubleshoot network problems quickly. Protocol analyzers should be capable of connecting to many different network interfaces, such as Ethernet, FDDI, T1, DS3, and so on. The analyzer should be able to examine all the traffic seen on the network under heavy traffic load. The most stressful condition for an analyzer is determined by the frame rate, not percentage utilization, because each frame must be captured and analyzed individually. An analyzer should be capable of capturing (or selectively capturing) and analyzing all the data present on the network and saving that data to a trace file.
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// Demonstrate default template arguments. #include <iostream> #include <cstdlib> using namespace std; // Here, AType defaults to int and size defaults to 10. template <class AType=int, int size=10> class atype { AType a[size]; // size of array is passed in size public: atype() { register int i; for(i=0; i<size; i++) a[i] = i; }
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As with LAN switching, in ATM there are no simple monitoring points to hook on an analyzer. Since ATM can transport many different protocols, test gear must be able to characterize the ATM at the Data Link layer (at very high speed), and also any traffic being carried above it. This could include encapsulated frame relay, TCP/IP, and others. ATM also has protocols for configuration and management that may require monitoring and analysis. For the foreseeable future, interoperability will continue to be a challenge for ATM switches.
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The C# Language
When you first execute C++ Builder s IDE, four windows appear, as shown in Figure 28-1. (Most of the fourth window is actually hidden behind the Form1 window.) The IDE consists of four windows that float. They are I The Menu window I The Object Inspector window I The Form window I The Code window If you have used earlier versions of Borland s C++ compiler, then it will be readily apparent that the IDE has changed quite a bit from its predecessor. It has more options and greater flexibility. The remainder of this chapter examines each of the windows that compose the IDE.
requirements to attenuate output harmonics with high-Q matching in many applications. Choosing the Q of the matching networks to be either high or low will depend on whether the amplifier will be operated in a broadband application. If it is, then the Q should be as low as possible in order to pass as wide a band of frequencies as possible, while also enhancing the amplifier s stability. This stability should not be compromised if we do not allow the matching network Q to exceed 5, even in designs for narrow bandwidths. The physical PCB layout of power amplifiers must be carefully watched. Excessively long emitter leads in a common-emitter amplifier can cause degeneration and instability in higher frequency applications with the effect of lower gain due to the added lead inductance. In Class C common-base power amplifiers, the effects can be even more pronounced, and will rapidly lead to complete instability. Indeed, power amplifier stability can become an almost impossible task if the transistor is operated significantly below its own power or frequency rating. This is due to the increased gain over a safe, stable value when the transistor is not operated closer to its design specifications. Many power transistors today are protected against instant destruction caused by brief intervals of mismatch and instability by modern fabrication techniques. Protection is important, since instability oscillations will create high peak voltages and collector currents, causing damage to an unprotected device. A typical single-ended Class C power amplifier, with matching networks, collector bias, and decoupling circuits, is shown in Fig. 3.53.
Thus the formula for the amount of isotope present at time t is R( t) = 5 3 5
Also called conversion. Taking a computer program that works on one kind of computer or operating system, and making it work on a different kind of computer or operating system. Because games tend to be much more hardware-dependent than other forms of software, this is a highly skilled occupation. Point-Of-View shooter. See FPS.
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This formula infers that varying the diameter of a via will not do much to change the via s inductance, while altering its length has a profound effect, which is why all vias (and conductors in general) to ground must be kept short, or the inductive reactance can become significant at higher frequencies. The printed copper board s traces will have a certain amount of resistance, and this resistance can adversely affect a circuit s operation. Since a trace has this resistance, it will mean that any two points along a trace will not have the same voltage, which can cause problems as to what the actual ground reference level is (it should be zero volts). At RF, this resistance is further increased by the skin effect. Vias should be placed at regular intervals of a quarter-wavelength or less through the top ground plane down to the true bottom ground plane in any RF circuit, as the only real ground plane of a two-sided board (one substrate, one upper and one lower copper sheet) is considered to be the continuous bottom copper layer. All components at RF frequencies will have some reactive and resistive parasitic effects, so only resistors, inductors, and capacitors that are rated at the frequency of operation or above should be used in an RF circuit. Depending on the application (coupling, decoupling, filtering, matching, etc.), running into a component s series or parallel resonance unexpectedly can destroy proper functioning of the wireless circuit. Mutual inductance (coupling) of traces, components, and wires must be accounted for in any design. This undesired coupling of energy can be alleviated by: 1. Keeping traces that are carrying RF currents separated by distance 2. Employing shields 3. Reducing the area of the current-carrying loops 4. Using right angles between traces A concept similar to tapering the microstrip into an active component to lessen the impedance bump is shown in Fig. 10.9. To decrease impedance variations and lower VSWR when a RF signal encounters a passive component, such as a coupling capacitor, the component should ideally be of the same width as the microstrip and the solder fillet itself should be smooth so as not to disturb the signal flow. As the return currents of a microstrip ground plane are flowing directly under the microstrip that is carrying the signal currents (Fig. 10.10), the ground plane must never be broken, or an unexpected impedance discontinuity will result within the microstrip. Always terminate all microstrip transmission lines with their characteristic impedance to avoid unpredictable reactive effects.
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