The Current Primitive Weak-AI node-computing Architectures
Page-4: Under Development
Coming Soon together with the upcoming wCP text-book
The von Neumann node-1D/2D architectures, create the current prevailing structures and infrastructures:
- Node-core 1D-structures: 1-Environmental nLT (1) Processes-Connection Architecture = Node-Core 1D-Structure
- Node-hub 2D-structures: 2-Environmental nLT (1,2) Network-Connection and (MIMO)-Aggregation Node-Hub Architecture= Network Node-Hub 2D-Structure,
- nodes-LAN: 1D linear Connection
- nodes-ANN: Planar Aggregation
The limitations are:
The upcoming textbook titled “Weak-AI node-computing paradigm shift to Strong-AI workgroup computing paradigm” is being finalized and all the information on this Weak-AI computing architecture page will have to be coherent, the content on this page is still under development.

von Neumann’s node-computing
1D/2D-Architecture Deficiency

- 1) firstly by creating 1D&2D node-computing flow-structures,
- 2) secondly by deriving all the weak-AI node-computing evolutionary theories,
- 3) thirdly by generating machine-service-oriented application systems and
- 4) fourthly by building client-server private-website service-transaction platforms.
1
von Neumann’s node-1D/2D-Architecture Deficiency
2
Node Weak-AI Evolutionary Theoretic Deficiency
3
Node Machine-centric Service-oriented System Deficiency
4
Node client-server service-Transaction Platform Deficiency
5
The Primitive weak-AI Node Computing Paradigm

von Neumann’s node-computing 1D/2D-Architecture Deficiency


Von Neumann 1D-architected MISO node core structure in one internal-processing environment

Von Neumann 2D nodes infrastructure in both internal-processing and external-networking computing two (2) environments

Von Neumann 2D-architected time-sharing MIMO node hub structure

Deficiencies: only create open-end structures that cannot evolve into bigger “node-core/hub structures”.

von Neumann node-structural
Weak-AI Evolutionary Theoretic Deficiency


2D-node planar structures can grow in stages, but they cannot evolve into bigger open-end 2D-node-structures.

Node lead-time developed pre-set fixated syntax-data application programming

Node hardware-evolved Entity’s weak-AI-PS computational complexity and PS-computability

Node-Structure open-end-IO-flow parallel-traffic-control network OSs, such as Win7-11, Unix, Linux, iOS, Android.

Node Weak-AI problem solving methods
Based on solution application programs and database programs lead-time interaction for weak-AI deep learning.

Deficiencies: All the above node-computing Basic-5 evolutionary theories are deficient, due to von Neumann’s open-end flow-architecture

Node-computing Machine-centric Service-oriented System Deficiency


Node-computing Machine-centric
Service-oriented System Deficiency

Node cloud service-oriented Weak-AI-PS systems network-cascaded-infrastructures

Node-zone service-oriented Weak-AI-PS systems network-cascaded infrastructures

Deficiencies: weak-AI-model-PS
service-oriented node Systems

Node client-server service Transaction Platform Deficiency


Private Business-2-(captive) Business (CGR)-service (OSI-7 syntax-data) transaction platforms

Private Busines-2-(captive) Individual (CGR)-service (OSI-7 syntax-data) transaction platforms

Business-2-(captive) Consumer
(CGR)-service (OSI-7 syntax-data) transaction platforms

Deficiencies: myriad private insecure client-server website platforms

The Primitive weak-AI Node Computing Paradigm (nCP)


The current primitive 2-environmental Weak-AI node-computing paradigm (nCP)

The must have endeavors to discover hierarchical integration architectures that can create evolvable structures

The current 2-environmental nCP-based insecure and non-transparent client-server
service-application oriented Internet

von Neumann’s node-computing
1D/2D-Architecture Deficiency

- 1) firstly by creating 1D&2D node-computing flow-structures,
- 2) secondly by deriving all the weak-AI node-computing evolutionary theories,
- 3) thirdly by generating machine-service-oriented application systems and
- 4) fourthly by building client-server private-website service-transaction platforms.
1
von Neumann’s node-1D/2D-Architecture Deficiency
2
Node Weak-AI Evolutionary Theoretic Deficiency
3
Node Machine-centric Service-oriented System Deficiency
4
Node client-server service-Transaction Platform Deficiency
5
The Primitive weak-AI Node Computing Paradigm

von Neumann’s node-computing 1D/2D-Architecture Deficiency


Von Neumann 1D-architected MISO node core structure in one internal-processing environment

Von Neumann 2D nodes infrastructure in both internal-processing and external-networking computing two (2) environments

Von Neumann 2D-architected time-sharing MIMO node hub structure

Deficiencies: only create open-end structures that cannot evolve into bigger “node-core/hub structures”.

von Neumann node-structural
Weak-AI Evolutionary Theoretic Deficiency


2D-node planar structures can grow in stages, but they cannot evolve into bigger open-end 2D-node-structures.

Node lead-time developed pre-set fixated syntax-data application programming

Node hardware-evolved Entity’s weak-AI-PS computational complexity and PS-computability

Node-Structure open-end-IO-flow parallel-traffic-control network OSs, such as Win7-11, Unix, Linux, iOS, Android.

Node Weak-AI problem solving methods
Based on solution application programs and database programs lead-time interaction for weak-AI deep learning.

Deficiencies: All the above node-computing Basic-5 evolutionary theories are deficient, due to von Neumann’s open-end flow-architecture

Node-computing Machine-centric Service-oriented System Deficiency


Node-computing Machine-centric
Service-oriented System Deficiency

Node cloud service-oriented Weak-AI-PS systems network-cascaded-infrastructures

Node-zone service-oriented Weak-AI-PS systems network-cascaded infrastructures

Deficiencies: weak-AI-model-PS
service-oriented node Systems

Node client-server service Transaction Platform Deficiency


Private Business-2-(captive) Business (CGR)-service (OSI-7 syntax-data) transaction platforms

Private Busines-2-(captive) Individual (CGR)-service (OSI-7 syntax-data) transaction platforms

Business-2-(captive) Consumer
(CGR)-service (OSI-7 syntax-data) transaction platforms

Deficiencies: myriad private insecure client-server website platforms

The Primitive weak-AI Node Computing Paradigm (nCP)


The current primitive 2-environmental Weak-AI node-computing paradigm (nCP)

The must have endeavors to discover hierarchical integration architectures that can create evolvable structures

The current 2-environmental nCP-based insecure and non-transparent client-server
service-application oriented Internet

von Neumann’s node-computing
1D/2D-Architecture Deficiency

- 1) firstly by creating 1D&2D node-computing flow-structures,
- 2) secondly by deriving all the weak-AI node-computing evolutionary theories,
- 3) thirdly by generating machine-service-oriented application systems and
- 4) fourthly by building client-server private-website service-transaction platforms.
1
von Neumann’s node-1D/2D-Architecture Deficiency
2
Node Weak-AI Evolutionary Theoretic Deficiency
3
Node Machine-centric Service-oriented System Deficiency
4
Node client-server service-Transaction Platform Deficiency
5
The Primitive weak-AI Node Computing Paradigm

von Neumann’s node-computing 1D/2D-Architecture Deficiency


Von Neumann 1D-architected MISO node core structure in one internal-processing environment

Von Neumann 2D nodes infrastructure in both internal-processing and external-networking computing two (2) environments

Von Neumann 2D-architected time-sharing MIMO node hub structure

Deficiencies: only create open-end structures that cannot evolve into bigger “node-core/hub structures”.

von Neumann node-structural
Weak-AI Evolutionary Theoretic Deficiency


2D-node planar structures can grow in stages, but they cannot evolve into bigger open-end 2D-node-structures.

Node lead-time developed pre-set fixated syntax-data application programming

Node hardware-evolved Entity’s weak-AI-PS computational complexity and PS-computability

Node-Structure open-end-IO-flow parallel-traffic-control network OSs, such as Win7-11, Unix, Linux, iOS, Android.

Node Weak-AI problem solving methods
Based on solution application programs and database programs lead-time interaction for weak-AI deep learning.

Deficiencies: All the above node-computing Basic-5 evolutionary theories are deficient, due to von Neumann’s open-end flow-architecture

Node-computing Machine-centric Service-oriented System Deficiency


Node-computing Machine-centric
Service-oriented System Deficiency

Node cloud service-oriented Weak-AI-PS systems network-cascaded-infrastructures

Node-zone service-oriented Weak-AI-PS systems network-cascaded infrastructures

Deficiencies: weak-AI-model-PS
service-oriented node Systems

Node client-server service Transaction Platform Deficiency


Private Business-2-(captive) Business (CGR)-service (OSI-7 syntax-data) transaction platforms

Private Busines-2-(captive) Individual (CGR)-service (OSI-7 syntax-data) transaction platforms

Business-2-(captive) Consumer
(CGR)-service (OSI-7 syntax-data) transaction platforms

Deficiencies: myriad private insecure client-server website platforms

The Primitive weak-AI Node Computing Paradigm (nCP)


The current primitive 2-environmental Weak-AI node-computing paradigm (nCP)

The must have endeavors to discover hierarchical integration architectures that can create evolvable structures

The current 2-environmental nCP-based insecure and non-transparent client-server
service-application oriented Internet