The Designer's Guide to VHDLElsevier Science & Technology Books, 1996 - 688 lappuses The Designer's Guide to VHDL is both a comprehensive manual for the language and an authoritative reference on its use in hardware design at all levels, from the system level to the gate level. Using the IEEE standard for VHDL, the author presents the entire description language and builds a modeling methodology based on successful software engineering techniques. Requiring only a minimal background in programming, this is an excellent tutorial for anyone in computer architecture, digital systems engineering, or CAD. The book is organized so that it can be either read cover-to-cover for a comprehensive tutorial or kept deskside as a reference to the language. Each chapter introduces a number of related concepts or language facilities and illustrates each one with examples. Scattered throughout the book are four case studies, which bring together preceding material in the form of extended worked examples. All of the examples and case studies, complete with test drivers for running the VHDL code, are available via the World Wide Web. In addition, each chapter is followed by a set of related exercises. |
No grāmatas satura
1.3. rezultāts no 84.
197. lappuse
... parameter . The new version is shown in Figure 7-6 . In the parameter interface list we have identified one formal parameter named op . This name is used in the statements in the procedure to refer to the value that will be passed as an ...
... parameter . The new version is shown in Figure 7-6 . In the parameter interface list we have identified one formal parameter named op . This name is used in the statements in the procedure to refer to the value that will be passed as an ...
199. lappuse
... parameters in a moment . The mode out indicates that the only way the procedure may use the formal parameters is to update them by variable assignment to transfer information back to the caller . It may not read the parameter values ...
... parameters in a moment . The mode out indicates that the only way the procedure may use the formal parameters is to update them by variable assignment to transfer information back to the caller . It may not read the parameter values ...
201. lappuse
... parameter data_buffer . Now let's look at signal parameters of mode out . In this case , the caller must name a signal as the actual parameter , and the procedure is passed a reference to the driver for the signal . When the procedure ...
... parameter data_buffer . Now let's look at signal parameters of mode out . In this case , the caller must name a signal as the actual parameter , and the procedure is passed a reference to the driver for the signal . When the procedure ...
Saturs
Fundamental Concepts | 1 |
Scalar Data Types and Operations | 27 |
Exercises | 51 |
Autortiesības | |
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adder alias architecture body array type attribute begin behavioral model binary bit_vector boolean called Chapter clause clock clock signal component instance configuration declaration constant cycle defined delay delay_length described digit downto driver EBNF element end entity end loop end procedure end process end record entity and architecture entity declaration enumeration type example executed expression FIFO flipflop floating-point formal parameter identifier ieee.std_logic_1164.all implementation index range inout instantiation instruction integer interface keyword label library ieee logic memory module null opcode operand operation output ports overflow package body package declaration parameter port map predefined represent reset result shown in Figure sign bit signal assignment statement simulation specify standard-logic std_logic std_logic_vector std_ulogic string subprogram subtype syntax rule test bench tion token Tpd_clk_ctrl transaction type conversions type declaration variable vector VHDL wait statement write zero
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