yaoguangluo
commented
3 years ago input:MSIOCUOCIPCUPCI 测试 肽展 降元
降元A = V + S MSIOCUOCIPCUPCI 降元O = E + S MSIESCUESCIPCUPCI 降元P = E + C MSIESCUESCIECCUECCI 降元M = C + S CSSIESCUESCIECCUECCI 降元V = U + Q CSSIESCUESCIECCUECCI 1降元概率IU
11降元E = I + U CSSIIUSCUIUSCIIUCCUIUCCI 11降元C = I + D IDSSIIUSIDUIUSIDIIUIDIDUIUIDIDI 1111概率S
1111概率S_11降元S = I + Q IDIQIQIIUIQIDUIUIQIDIIUIDIDUIUIDIDI 1111概率S_11肽展 增元
1111概率S_11V = U + Q IDIQIQIIUIQIDUIUIQIDIIUIDIDUIUIDIDI 1111概率S_111概率Increment IU
1111概率S_E = I + U IDIQIQIEIQIDUEIQIDIEIDIDUEIDIDI 1111概率S_C = I + D CIQIQIEIQCUEIQCIECCUECCI 1111概率S_S = I + Q CSSIESCUESCIECCUECCI 1111概率S_A = V + S CSSIESCUESCIECCUECCI 1111概率S_O = E + S CSSIOCUOCIECCUECCI 1111概率S_P = E + C CSSIOCUOCIPCUPCI 1111概率S_M = C + S MSIOCUOCIPCUPCI 1111概率S_112概率Increment DU
1111概率S_E = D + U IDIQIQIIUIQIEIUIQIDIIUIDIEIUIDIDI 1111概率S_C = I + D CIQIQIIUIQIEIUIQCIIUCIEIUCCI 1111概率S_S = I + Q CSSIIUSIEIUSCIIUCIEIUCCI 1111概率S_A = V + S CSSIIUSIEIUSCIIUCIEIUCCI 1111概率S_O = E + S CSSIIUSIEIUSCIIUCIEIUCCI 1111概率S_P = E + C CSSIIUSIEIUSCIIUCIEIUCCI 1111概率S_M = C + S MSIIUSIEIUSCIIUCIEIUCCI 1112概率S_I
1111概率S_I_11降元S = I IDIIIIUIIDUIUIIDIIUIDIDUIUIDIDI 1111概率S_I_11肽展 增元
1111概率S_I_11V = U + Q IDIIIIUIIDUIUIIDIIUIDIDUIUIDIDI 1111概率S_I_111概率Increment IU
1111概率S_I_E = I + U IDIIIEIIDUEIIDIEIDIDUEIDIDI 1111概率S_I_C = I + D CIIIEICUEICIECCUECCI 1111概率S_I_S = I + Q CIIIEICUEICIECCUECCI 1111概率S_I_A = V + S CIIIEICUEICIECCUECCI 1111概率S_I_O = E + S CIIIEICUEICIECCUECCI 1111概率S_I_P = E + C CIIIEICUEICIPCUPCI 1111概率S_I_M = C + S CIIIEICUEICIPCUPCI 1111概率S_I_112概率Increment DU
1111概率S_I_E = D + U IDIIIIUIIEIUIIDIIUIDIEIUIDIDI 1111概率S_I_C = I + D CIIIIUIIEIUICIIUCIEIUCCI 1111概率S_I_S = I + Q CIIIIUIIEIUICIIUCIEIUCCI 1111概率S_I_A = V + S CIIIIUIIEIUICIIUCIEIUCCI 1111概率S_I_O = E + S CIIIIUIIEIUICIIUCIEIUCCI 1111概率S_I_P = E + C CIIIIUIIEIUICIIUCIEIUCCI 1111概率S_I_M = C + S CIIIIUIIEIUICIIUCIEIUCCI 1113概率S_Q
1111概率S_Q_降元S = Q IDQQIIUQIDUIUQIDIIUIDIDUIUIDIDI 1111概率S_Q_肽展 增元
1111概率S_Q_V = U + Q IDQQIIVIDUIVIDIIUIDIDUIUIDIDI 1111概率S_Q_概率Increment IU
1111概率S_Q_E = I + U IDQQIIVIDUIVIDIEIDIDUEIDIDI 1111概率S_Q_C = I + D CQQIIVCUIVCIECCUECCI 1111概率S_Q_S = I + Q CQQIIVCUIVCIECCUECCI 1111概率S_Q_A = V + S CQQIIVCUIVCIECCUECCI 1111概率S_Q_O = E + S CQQIIVCUIVCIECCUECCI 1111概率S_Q_P = E + C CQQIIVCUIVCIPCUPCI 1111概率S_Q_M = C + S CQQIIVCUIVCIPCUPCI 1111概率S_Q_概率Increment DU
1111概率S_Q_E = D + U IDQQIIVIEIVIDIIUIDIEIUIDIDI 1111概率S_Q_C = I + D CQQIIVIEIVCIIUCIEIUCCI 1111概率S_Q_S = I + Q CQQIIVIEIVCIIUCIEIUCCI 1111概率S_Q_A = V + S CQQIIVIEIVCIIUCIEIUCCI 1111概率S_Q_O = E + S CQQIIVIEIVCIIUCIEIUCCI 1111概率S_Q_P = E + C CQQIIVIEIVCIIUCIEIUCCI 1111概率S_Q_M = C + S CQQIIVIEIVCIIUCIEIUCCI 2降元概率DU
21降元E = D + U CSSIDUSCUDUSCIDUCCUDUCCI 21降元C = I + D IDSSIDUSIDUDUSIDIDUIDIDUDUIDIDI 2111概率S
2222概率S_11降元S = I + Q IDIQIQIDUIQIDUDUIQIDIDUIDIDUDUIDIDI 2222概率S_11肽展 增元
2222概率S_11V = U + Q IDIQIQIDUIQIDUDUIQIDIDUIDIDUDUIDIDI 2222概率S_111概率Increment IU
2222概率S_E = I + U IDIQIQIDUIQIDUDUIQIDIDUIDIDUDUIDIDI 2222概率S_C = I + D CIQIQCUIQCUDUIQCCUCCUDUCCI 2222概率S_S = I + Q CSSCUSCUDUSCCUCCUDUCCI 2222概率S_A = V + S CSSCUSCUDUSCCUCCUDUCCI 2222概率S_O = E + S CSSCUSCUDUSCCUCCUDUCCI 2222概率S_P = E + C CSSCUSCUDUSCCUCCUDUCCI 2222概率S_M = C + S MSCUSCUDUSCCUCCUDUCCI 2222概率S_112概率Increment DU
2222概率S_E = D + U IDIQIQIEIQIEEIQIDIEIDIEEIDIDI 2222概率S_C = I + D CIQIQIEIQIEEIQCIECIEECCI 2222概率S_S = I + Q CSSIESIEESCIECIEECCI 2222概率S_A = V + S CSSIESIEESCIECIEECCI 2222概率S_O = E + S CSSIOIEOCIECIEECCI 2222概率S_P = E + C CSSIOIEOCIPIEPCI 2222概率S_M = C + S MSIOIEOCIPIEPCI 2112概率S_I
2222概率S_I_11降元S = I IDIIIDUIIDUDUIIDIDUIDIDUDUIDIDI 2222概率S_I_11肽展 增元
2222概率S_I_11V = U + Q IDIIIDUIIDUDUIIDIDUIDIDUDUIDIDI 2222概率S_I_111概率Increment IU
2222概率S_I_E = I + U IDIIIDUIIDUDUIIDIDUIDIDUDUIDIDI 2222概率S_I_C = I + D CIICUICUDUICCUCCUDUCCI 2222概率S_I_S = I + Q CIICUICUDUICCUCCUDUCCI 2222概率S_I_A = V + S CIICUICUDUICCUCCUDUCCI 2222概率S_I_O = E + S CIICUICUDUICCUCCUDUCCI 2222概率S_I_P = E + C CIICUICUDUICCUCCUDUCCI 2222概率S_I_M = C + S CIICUICUDUICCUCCUDUCCI 2222概率S_I_112概率Increment DU
2222概率S_I_E = D + U IDIIIEIIEEIIDIEIDIEEIDIDI 2222概率S_I_C = I + D CIIIEIIEEICIECIEECCI 2222概率S_I_S = I + Q CIIIEIIEEICIECIEECCI 2222概率S_I_A = V + S CIIIEIIEEICIECIEECCI 2222概率S_I_O = E + S CIIIEIIEEICIECIEECCI 2222概率S_I_P = E + C CIIIEIIEEICIPIEPCI 2222概率S_I_M = C + S CIIIEIIEEICIPIEPCI 2113概率S_Q
2222概率S_Q_降元S = Q IDQQIDUQIDUDUQIDIDUIDIDUDUIDIDI 2222概率S_Q_肽展 增元
2222概率S_Q_V = U + Q IDQQIDVIDUDVIDIDUIDIDUDUIDIDI 2222概率S_Q_概率Increment IU
2222概率S_Q_E = I + U IDQQIDVIDUDVIDIDUIDIDUDUIDIDI 2222概率S_Q_C = I + D CQQCVCUDVCCUCCUDUCCI 2222概率S_Q_S = I + Q CQQCVCUDVCCUCCUDUCCI 2222概率S_Q_A = V + S CQQCVCUDVCCUCCUDUCCI 2222概率S_Q_O = E + S CQQCVCUDVCCUCCUDUCCI 2222概率S_Q_P = E + C CQQCVCUDVCCUCCUDUCCI 2222概率S_Q_M = C + S CQQCVCUDVCCUCCUDUCCI 2222概率S_Q_概率Increment DU
2222概率S_Q_E = D + U IDQQIDVIEDVIDIEIDIEEIDIDI 2222概率S_Q_C = I + D CQQCVIEDVCIECIEECCI 2222概率S_Q_S = I + Q CQQCVIEDVCIECIEECCI 2222概率S_Q_A = V + S CQQCVIEDVCIECIEECCI 2222概率S_Q_O = E + S CQQCVIEDVCIECIEECCI 2222概率S_Q_P = E + C CQQCVIEDVCIPIEPCI 2222概率S_Q_M = C + S CQQCVIEDVCIPIEPCI
<<类人DNA与 神经元基于催化算子映射编码方式 V_1.2.2版本国家软著申请 流水号 2020Z11L0333706>> <<肽展公式推导与元基编码进化计算以及它的应用发现 V_1.2.2版本国家软著申请 流水号 2020Z11L0356797>> https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/DNA%20%E7%BC%96%E7%A0%81%E6%96%B9%E5%BC%8F1.2.2%20%E4%B8%AD%E8%AF%91%E8%8B%B1%E6%B7%B7%E5%90%88%E7%89%88.pdf 观点: DNA的本质是一种智慧体 对 数据 增删改查 的 四个 元操作 的 组合方式 编码索引链. VPCS 架构不是德塔最终架构, 观点很明确, 至少这篇文章中, 作者会做一个详细的论点论证, 基于5个部分, 德塔工作在类人认知方式, 医学商业逻辑的后端处理, 催化计算的过程, 德塔计算算力本质的寻找, 以及仿生DNA的解码分析, 最后, 作者会组织很多的文字来描述德塔的一些振奋人心的发现: 比如 DNA的编码元基 如IDUC对应 增删改查, 以及它的真实环境的社会应用实例. ABSTRACT: In order to Emancipate the productive forces, create new productivity, optimize existing production tools to better adapt to the production environment and Better assists Humanoid in where understanding, adaptation and transformation of the environment. We know VPCS [9] architecture is not the end. Absolutely, At least at this paper, will make an implementation in five section: DETA HUMANOID [20] cognition, DETA AOPM Humanoid [20] Cognition Theory, DETA VPCS Medical Business backend logic, DETA IDUQ Catalytic computing and DETA INITONS DECODING [18]. Above all There will spend more and more words in my DETA DNA [14] Law of IDUQ. The Essence of INITONS; DNA [14] theorem: The Essence of DNA [14]; Execution mode of Neuron Calculation; The Essence of Adapting to The Environment; The essence of HUMANOID [20] evolution offspring etc. KEYWORDS: VPCS [9] AOPM [10], IDUC, Nero, Artificial, Decoder, Medical, PARALLING [19], Computing, Humanoid, ETL, Parser [1], Data Mining [21], INITONS [57] INTRODUCTION: Recently the real-world first-time human find a solution how to build the magnitude INITONS PDN Life by using computer, now the kernel of this paper will definitely proof that how does this life born and how many scientific tasks we had already finished, finally, also includes the pending tasks for example NUWA Plan, PDE and TVM etc. thus all and all will be implemented in the TEXT section where on the research factors way of how we finding. 文章跟进太多主要为3个方向
1 DNA 编码规范 著作 AOPM VECS IDUQ 工程 与 initons 定义, 活性肽原理函数规范定义 等 见所有个人软著体系和
https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/DNA%20%E7%BC%96%E7%A0%81%E6%96%B9%E5%BC%8F1.2.2%20%E4%B8%AD%E8%AF%91%E8%8B%B1%E6%B7%B7%E5%90%88%E7%89%88.pdf (https://github.com/yaoguangluo/Deta_Resource/blob/master/DNA%20%E7%BC%96%E7%A0%81%E6%96%B9%E5%BC%8F1.2.2%20%E4%B8%AD%E8%AF%91%E8%8B%B1%E6%B7%B7%E5%90%88%E7%89%88.pdf)
2 DNA 计算著作 变嘧啶, DNA 肽展, 核酸钥匙, 推导完整过程等.
https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/CN_DT_pdn_computing1_2_2.pdf 全球首发 AOPM VECS IDUQ 肽展催化公式推导集备份 中华人民共和国国家个人著作权申请文章中文版 备份
https://github.com/yaoguangluo/Deta_Resource/blob/master/CN_DT_pdn_computing1_2_2.pdf (仅仅纠正 第10页 新冠苷 的s=q的推导结果) https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/CN_DT_pdn_computing1_2_2%20%E4%BB%85%E4%BB%85%20FIX%20%E7%AC%AC12%E9%A1%B5%20S=Q%20%E6%96%B0%E5%86%A0%E5%A4%84%E6%B6%89%E7%9A%84%E5%87%A0%E8%A1%8C%20.pdf
https://github.com/yaoguangluo/Deta_Resource/blob/master/CN_DT_pdn_computing1_2_2%20%E4%BB%85%E4%BB%85%20FIX%20%E7%AC%AC12%E9%A1%B5%20S%3DQ%20%E6%96%B0%E5%86%A0%E5%A4%84%E6%B6%89%E7%9A%84%E5%87%A0%E8%A1%8C%20.pdf
发布受干扰, 20201102报警, 国家公安备案 按git 时间戳 增量模式 确定的 保留的 中英 混合版本(肽展定理的推导过程一字不变): https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/著作权版本PDE_Formular_1_2_2.pdf
3 对应 期刊, 会议, 演讲, 展示 论文, 题材, 作品和介绍的资料集合等. 会议论文版本
https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/DNA%E7%BC%96%E7%A0%81%E6%96%B9%E5%BC%8F1_2_2%E8%BD%AF%E8%91%97_%E4%B8%AD%E6%96%87%E8%A3%81%E5%89%AA_1_2_3_%E7%B2%BE%E7%AE%80%E5%85%A8%E8%8B%B1%E8%AE%BA%E6%96%87%E7%89%88V0_0_2.pdf https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/PDE_Formular_ENpaper1_2_2.pdf (1_2_2_1) PPT
https://github.com/yaoguangluo/Deta_Resource/blob/master/Deta_OSS%2Bv11.3.2.pdf 11.3.3 仅仅纠正下11.3.2最后一页 新冠苷 的s = q 5行推理
https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/Deta_OSS%20v11.3.3.pdf https://github.com/yaoguangluo/Deta_Resource/blob/master/Deta_OSS%20v11.3.3.pdf 11.3.final for fix the (thanks page) https://github.com/yaoguangluo/Deta_Resource/blob/master/Deta_OSS%20v11.final.pdf https://gitee.com/DetaChina/collection-of-papers-by-deta/blob/master/Deta_OSS%20v11.final.pdf
最终解释权 罗瑶光 浏阳德塔软件开发有限公司. 20201029
记住这个时间: 公元二零二零年十月四号, DNA 编码手册 首次破译. 公元二零二零年十月二十五号 完整破译 DNA INITONS 肽展变换定理公式 公元二零二零年十月二十七号 首次 完整破译 DNA INITONS 肽展变换生命词根 公元二零二零年十一月六号 首次 完整破译 费洛蒙