functional error 中文意思是什麼

functional error 解釋
功能誤差
  • functional : adj 1 官能的,機能的。2 在起作用的;職務上的。3 【數學】函數的。4 【建築】從使用的觀點設計[構成]...
  • error : n. 1. 錯誤;失錯。2. 謬見,誤想;誤信;誤解。3. 罪過。4. 【數學】誤差;【法律】誤審,違法;(棒球中的)錯打。adj. -less 無錯誤的,正確的。
  1. Ideally, test cases that check error conditions are written separately from the functional test cases and should have steps to verify the error messages and logs

    理想情況下,檢測錯誤條件的測試用例應該與功能測試用粒分開來寫,並且應該有校驗錯誤信息和日誌的步驟。
  2. Constructing a functional machine that has a large number of qubits isolated well enough to have such a low error rate is a daunting task that physicists are far from achieving

    可以運作的量子電腦需要含有大量的量子位元,而每個量子位元與環境的隔離必須好到讓錯誤率如前述的那樣低,建造這樣的量子電腦是極困難的工作,物理學家距離成功還很遙遠。
  3. The functional descriptions of these error mechanisms which can reveal how errors of various blocks in adc affect the output sample are provided ; analyses show that the first stage of the converter is dominant in a pipeline

    首先,通過研究流水線采樣保持電路、子adc 、子dac和殘差放大級的主要誤差機制,用函數表達式將誤差等效到采樣輸出端,量化各部分誤差對系統性能的影響。
  4. The calculated error can be in one of two partitions about the desired accuracy, a feature of the structural design for the unit, which is not apparent from a purely functional specification

    錯誤可能是在二類劃分的當中一個中關于準確性,結構設計的特點為單元,不是明顯的從一個單純的功能規格。
  5. No - linearity error is the leading technical criteria to scale a potentiometer and decides how precisely potentiometer works. in this dissertation, a potentiometer auto - measuring and amending computer control system is given through the analysis of auto - measuring and amending technique, the trimming process and its functional requirement to system

    本論文對精密電位計的非線性誤差自動檢測修刻技術進行了詳細的研究,並結合電位計修刻工藝的特點及其對系統的功能要求,設計了基於工控機的電位計自動修刻設備。
  6. The whole circuit consists of a multiplier, an error amplifier, a comparator, a rs flip - flop, an and gate, and an inverter, etc. the electronic circuit simulator cadence is utilized to practice the detailed functional simulation of the general circuit and the subsystem circuits

    整個電路由模擬乘法器、誤差放大器、比較器、 rs觸發器、與門和倒相器等基本單元電路組成,採用工作站上的大型ic設計軟體cadence進行模擬。
  7. In the thesis, some of the most important functional modules of the pwm power control ics are designed and simulated, including error amplifier, voltage reference, voltage regulator, comparator, and oscillator. the topologies, schematics and layouts of some circuits are introduced and developed

    本畢業設計研究和提出了構成pwm電源控制晶元的主要功能模塊,設計了其中主要模塊ip核的多種結構電路並進行了模擬,完成了部分電路的版圖設計? ?包括誤差放大器,基準電壓源,電壓調節器,比較器,振蕩器等。
  8. Chapter 5 gives the design illumination of the rs coder and decoder based on fpga. then it gives the integrated results for realization design of the rs ( 31, 15 ) error - correcting code. after that, it gives the functional and layout simulation results for the limited field multiplier, divider, rs coder and rs de - coder

    第五章給出了基於fpga實現的rs編碼器和譯碼器設計說明, rs ( 31 , 15 )糾錯碼設計實現的綜合結果,有限域乘法器、除法器、 rs編碼器、 rs譯碼器的功能模擬和布局布線后模擬結果,最後總結主要的調試經驗。
  9. At the same time, the research of distributed object integration model, manufacturing information conversion pattern, manufacturing information transportation pattern and the error handling mechanisms, which constitute the manufacturing information exchange pattern, is conducted from the three aspects : solved problem, fundamental support technologies and solution. secondly, on the basis of the former research and the functional and technical requirements of e - manufacturing platform, which is a kind of realization carrier of e - manufacturing, a general implementation technologies frame of manufacturing information exchange pattern which suits to the e - manufacturing platform is brought forward. on the guidance of the frame, the manufacturing information transportation

    在該實現框架的指導之下,結合xml和soap標準制定了網路化製造平臺中的製造信息傳輸協議和製造信息轉換協議,並在此協議的基礎上,研究了網路化製造平臺中實現製造信息交換模式的幾個重點和難點問題,制定了其解決方案,並運用xml ( extensiblemarkuplanguage ) , soap ( simpleobjectaccessprotocol )實現, j2ee ( java2platform , enterpriseedition )等軟體技術,建立了用於實現網路化製造平臺中製造信息交換的支持系統。
  10. The convergence of the waveform relaxation for solving functional differential - algebraic equations is studied and the error estimate is derived

    摘要本文採用波形鬆弛演算法來求解一類泛函微分代數系統,該演算法在迭代過程中,避免了求解泛函微分方程,且利於并行處理。
  11. As this column s installments on functional programming have observed, the recipe style of program flow is comparatively error - prone and difficult to maintain

    正如本專欄關于函數型編程的部分文章中所評述的,程序流的方法風格相對來說容易出錯並且難以維護。
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