段譯碼器 的英文怎麼說
中文拼音 [duànyìmǎqì]
段譯碼器
英文
segment decoder-
Jx5 is a complex microprocessor, which contains cache, microcode rom, instruction prefetch unit, instruction decode unit, integer unit, mmx unit, floating point unit, page unit, bus unit, dp logic, apic and so on. it is very difficulty to test a such complicated microprocessor and receive anticipative fault coverage ratio. so, we must add dft in cpu ’ design
Jx5微處理器是一款結構異常復雜的微處理器,它的內部包含有: cache 、微碼rom 、指令預取部件和動態分支預測部件、指令譯碼部件、整數部件、多媒體部件、浮點部件、分段和分頁部件、總線介面部件、雙處理器介面部件、可編程中斷控制部件等。Meanwhile, considering of accuracy, complexity and speed, a 6 + 4 segmented architecture is presented. to enhance the speed performance and reduce error and area of dac, the 6 msbs are thermometer - decoded, and the 4 lsbs are binary - weighted
同時,考慮到數模轉換器的精度、復雜性和速度特性,決定採用電流舵型結構,確定了6 + 4的分段式譯碼方式。The compiler can store this directive in its symbol table and use it during the intermediate code generation phase
編譯器可以將這個指示符存儲在它的符號表中,並在中間代碼生成階段使用這個指示符。In the stage of generate the target code, we pass to compile the machine logic source program, to generate the target code in the form of machine code
在目標代碼生成階段,我們通過對機床邏輯源程序的編譯,生成機器碼形式的目標代碼,對分析過程中產生的錯誤進行分析處理。As ' to the front end, this thesis does n ' t use the method of syntax directed semantic analysis. instead, it arranges syntax analysis and semantic analysis into different stages in virtue of the equal description of source program. as to the back end, it selects the scheme that a virtual machine executes the intermediate code through interpreting
在對語言編譯器即語言實現方面的研究中,論文總結了編譯器的一般模型,並針對其前端和後端分別選擇了合適的實現方案:前端沒有採用語法制導的語義分析,而是通過對源程序等價表述的引入將語法分析和語義分析安排到不同階段進行;後端選擇了用虛擬機對中間代碼解釋執行的實現方案。Some new technologies such as dividing the memory array into separated sub - arrays, atd, pre - charge and balance, subsection decoding, multilevel sense amplifier, etc have been used
設計中採用了諸如存儲陣列分塊技術,地址探測技術,預充電及平衡技術,分段譯碼技術,分級敏感放大器等一些新技術。It turns out that the compiler actually inserts casts into the code during compilation to account for the fact that type erasure reduces the precision of the types of certain expressions
事實證明編譯器確實在編譯階段將數據類型轉換插入到代碼中,這樣做是為了解決類型擦除會降低某些表達式的類型的精度這一事實。Depending on the nature of certain segments of code, the optimizing compiler might generate unexpected code
取決于某些代碼段的特性,優化編譯器可能會生成意外的代碼。He shows why this matters and offers a bit of code to help you determine whether your just - in - time compiler can transform tail recursion on code while preserving semantics
他說明了為什麼這是一個重要問題,並提供了一段代碼來幫助判斷您的即時( jit )編譯器是否會在保持語言語義的同時做尾遞歸代碼轉換。分享友人