deepsouth.ai Open in urlscan Pro
76.76.21.21  Public Scan

Form analysis
0 forms found in the DOM

Text Content

|||
 * Neuromorphic Computing
 * Ds Technology
 * Tokenomics
 * Links
 * Request Access


DEEPSOUTH AI

An innovative system that utilizes neuromorphic computing to develop an AI
application with multiple functions.

While incorporating traditional elements of programming, our system is
fundamentally built on a range of advanced supervised and unsupervised training
algorithms.



Join Telegram Follow Us Read Whitepaper


NEUROMORPHIC COMPUTING

Neuromorphic computing is a process that mimics the human brain's structure and
functionality, using artificial neurons and synapses to process information.

Using artificial neurons and synapses, neuromorphic models simulate how our
brain processes information, allowing them to solve problems, recognize
patterns, and make decisions more quickly and efficiently than conventional
computing models.

A Neuron, also called a node, is a basic computational unit that processes
inputs and produces an output.

A Synapse is a connection between two neurons. Unlike the von Neumann model,
where processing units and memory are separate, the neuromorphic computing model
integrates memory and processing units in the neurons and synapses.

Instead of encoding information as numerical values in binary format,
neuromorphic computing uses Spikes as inputs, where the timing, magnitude, and
shape of these spikes encode numerical information.


PARALLEL PROCESSING

Every neuron and synapse functions autonomously and simultaneously, working
alongside others. By distributing tasks among many neurons and synapses,
neuromorphic systems avoid overburdening any single processing unit with too
many tasks.






UNIFIED MEMORY AND PROCESSING

Memory and processing functions are unified within a single component, where
both neurons and synapses are responsible for data processing and storage tasks.
This unification helps to overcome von Neumann bottlenecks.






SCALABILITY

Neuromorphic systems possess an intrinsic ability to scale. Upgrading
neuromorphic systems can be straightforwardly achieved by programming additional
virtual neurons and synapses.






EVENT-DRIVEN COMPUTATION

Neuromorphic systems become active only when there is a need for computation and
the necessary data is present. Neurons and synapses in these systems are engaged
solely when there are spikes, or data events, to process.






STOCHASTICITY

The autonomous functioning of neurons and synapses in neuromorphic systems leads
to a level of unpredictability. This randomness is not just a challenge but also
a feature that closely mimics the probabilistic behavior of biological neural
networks.




INTEGRATING NEUROMORPHIC COMPUTING WITH ARTIFICIAL INTELLIGENCE

Integrating neuromorphic computing with artificial intelligence is mainly
achieved by employing neuromorphic algorithms, which include:


 * Spiking Neural Networks (SNN)
 * Advanced algorithms






SPIKING NEURAL NETWORKS (SNN)

This group of algorithms trains artificial intelligence systems by tuning the
states and parameters of artificial neurons and synapses, facilitating learning
new behavior by achieving new homeostasis.

SNN algorithms leverage the plasticity nature of ANN systems.
Plasticity is the ability of a neural network to quickly change its predictions
in response to new information. It is essential for the adaptability and
robustness of artificial intelligence systems. We utilize the following
algorithms within the SNN framework:



 * Spike-Timing-Dependent Plasticity (STDP)
 * Backpropagation-based direct training schemes
 * Suxpervised temporal learning
 * ANN-to-SNN conversion strategies




ADVANCED ALGORITHMS

Additional algorithms for integrating neuromorphic computing principles into
advanced artificial intelligence systems include:


 * Reservoir computing (LSM)
 * Genetic algorithms



Reservoir computing is characterized by the use of a sparsely interconnected
SNN, serving as the reservoir.

This reservoir is randomly structured but maintains two essential properties:
input separability, ensuring different inputs lead to different outputs, and
fading memory, which prevents signals from propagating indefinitely, causing
them to diminish over time.

Genetic algorithms constantly adjust the system using available data to carry
out new functions. These methods refine artificial intelligence systems by
modifying their parameters, neurons, and synaptic thresholds.


DEEPSOUTH AI TECHNOLOGY

DeepSouth AI achieves exceptional computational capabilities and efficiency by
employing a combination of neuromorphic computing algorithms. These algorithms
form the basis of its multifunctional capabilities; text and voice control,
visual interpretation, and a sophisticated chat engine, along with various other
AI-driven functions.




 * AUTONOMOUS AI
   
   Autonomous AI is designed to transform how users interact with their
   computing devices. By integrating advanced voice recognition and natural
   language processing, this AI function enables users to operate their
   computers and devices through both voice and text commands. The system's core
   capability lies in its ability to interpret and autonomously execute
   instructions.
   
   For example, when a user says, "play my favorite music on YouTube," the AI
   autonomously opens a web browser, navigates to YouTube, and selects music
   based on the user's historical preferences and data on the platform.


 * VISUAL AI
   
   Deep South's AI leverages sophisticated neuromorphic algorithms to analyze
   visual inputs. This enables the AI to provide real-time, accurate
   descriptions of images and videos, either in text or through voice narration.
   
   Whether it's a still image, video or a live stream, the AI evaluates the
   content and delivers in-depth narratives of the visuals it processes.
   AI-powered visual interpretation demonstrates its versatility through a range
   of practical applications that seamlessly integrate into different areas of
   everyday life and work.


 * CONVERSATIONAL AI
   
   The primary function is to simulate a conversational partner that can
   understand and respond to a wide array of queries and commands. From
   providing information and answering questions to aiding in complex
   problem-solving scenarios, this function is designed to be both a source of
   knowledge and a companionable interface.
   
   Initially powered by OpenAI's API, the system will evolve, incorporating a
   diverse range of AI technologies such as Grok, Google's Gemini, and SpikeGPT.
   This expansion will empower users with the choice to select the AI that best
   aligns with their specific needs.


 * AUTONOMOUS AI
   
   Autonomous AI is designed to transform how users interact with their
   computing devices. By integrating advanced voice recognition and natural
   language processing, this AI function enables users to operate their
   computers and devices through both voice and text commands. The system's core
   capability lies in its ability to interpret and autonomously execute
   instructions.
   
   For example, when a user says, "play my favorite music on YouTube," the AI
   autonomously opens a web browser, navigates to YouTube, and selects music
   based on the user's historical preferences and data on the platform.


 * VISUAL AI
   
   Deep South's AI leverages sophisticated neuromorphic algorithms to analyze
   visual inputs. This enables the AI to provide real-time, accurate
   descriptions of images and videos, either in text or through voice narration.
   
   Whether it's a still image, video or a live stream, the AI evaluates the
   content and delivers in-depth narratives of the visuals it processes.
   AI-powered visual interpretation demonstrates its versatility through a range
   of practical applications that seamlessly integrate into different areas of
   everyday life and work.


 * CONVERSATIONAL AI
   
   The primary function is to simulate a conversational partner that can
   understand and respond to a wide array of queries and commands. From
   providing information and answering questions to aiding in complex
   problem-solving scenarios, this function is designed to be both a source of
   knowledge and a companionable interface.
   
   Initially powered by OpenAI's API, the system will evolve, incorporating a
   diverse range of AI technologies such as Grok, Google's Gemini, and SpikeGPT.
   This expansion will empower users with the choice to select the AI that best
   aligns with their specific needs.


 * AUTONOMOUS AI
   
   Autonomous AI is designed to transform how users interact with their
   computing devices. By integrating advanced voice recognition and natural
   language processing, this AI function enables users to operate their
   computers and devices through both voice and text commands. The system's core
   capability lies in its ability to interpret and autonomously execute
   instructions.
   
   For example, when a user says, "play my favorite music on YouTube," the AI
   autonomously opens a web browser, navigates to YouTube, and selects music
   based on the user's historical preferences and data on the platform.


 * VISUAL AI
   
   Deep South's AI leverages sophisticated neuromorphic algorithms to analyze
   visual inputs. This enables the AI to provide real-time, accurate
   descriptions of images and videos, either in text or through voice narration.
   
   Whether it's a still image, video or a live stream, the AI evaluates the
   content and delivers in-depth narratives of the visuals it processes.
   AI-powered visual interpretation demonstrates its versatility through a range
   of practical applications that seamlessly integrate into different areas of
   everyday life and work.


 * CONVERSATIONAL AI
   
   The primary function is to simulate a conversational partner that can
   understand and respond to a wide array of queries and commands. From
   providing information and answering questions to aiding in complex
   problem-solving scenarios, this function is designed to be both a source of
   knowledge and a companionable interface.
   
   Initially powered by OpenAI's API, the system will evolve, incorporating a
   diverse range of AI technologies such as Grok, Google's Gemini, and SpikeGPT.
   This expansion will empower users with the choice to select the AI that best
   aligns with their specific needs.


 * AUTONOMOUS AI
   
   Autonomous AI is designed to transform how users interact with their
   computing devices. By integrating advanced voice recognition and natural
   language processing, this AI function enables users to operate their
   computers and devices through both voice and text commands. The system's core
   capability lies in its ability to interpret and autonomously execute
   instructions.
   
   For example, when a user says, "play my favorite music on YouTube," the AI
   autonomously opens a web browser, navigates to YouTube, and selects music
   based on the user's historical preferences and data on the platform.


 * VISUAL AI
   
   Deep South's AI leverages sophisticated neuromorphic algorithms to analyze
   visual inputs. This enables the AI to provide real-time, accurate
   descriptions of images and videos, either in text or through voice narration.
   
   Whether it's a still image, video or a live stream, the AI evaluates the
   content and delivers in-depth narratives of the visuals it processes.
   AI-powered visual interpretation demonstrates its versatility through a range
   of practical applications that seamlessly integrate into different areas of
   everyday life and work.


 * CONVERSATIONAL AI
   
   The primary function is to simulate a conversational partner that can
   understand and respond to a wide array of queries and commands. From
   providing information and answering questions to aiding in complex
   problem-solving scenarios, this function is designed to be both a source of
   knowledge and a companionable interface.
   
   Initially powered by OpenAI's API, the system will evolve, incorporating a
   diverse range of AI technologies such as Grok, Google's Gemini, and SpikeGPT.
   This expansion will empower users with the choice to select the AI that best
   aligns with their specific needs.


 * AUTONOMOUS AI
   
   Autonomous AI is designed to transform how users interact with their
   computing devices. By integrating advanced voice recognition and natural
   language processing, this AI function enables users to operate their
   computers and devices through both voice and text commands. The system's core
   capability lies in its ability to interpret and autonomously execute
   instructions.
   
   For example, when a user says, "play my favorite music on YouTube," the AI
   autonomously opens a web browser, navigates to YouTube, and selects music
   based on the user's historical preferences and data on the platform.


 * VISUAL AI
   
   Deep South's AI leverages sophisticated neuromorphic algorithms to analyze
   visual inputs. This enables the AI to provide real-time, accurate
   descriptions of images and videos, either in text or through voice narration.
   
   Whether it's a still image, video or a live stream, the AI evaluates the
   content and delivers in-depth narratives of the visuals it processes.
   AI-powered visual interpretation demonstrates its versatility through a range
   of practical applications that seamlessly integrate into different areas of
   everyday life and work.


 * CONVERSATIONAL AI
   
   The primary function is to simulate a conversational partner that can
   understand and respond to a wide array of queries and commands. From
   providing information and answering questions to aiding in complex
   problem-solving scenarios, this function is designed to be both a source of
   knowledge and a companionable interface.
   
   Initially powered by OpenAI's API, the system will evolve, incorporating a
   diverse range of AI technologies such as Grok, Google's Gemini, and SpikeGPT.
   This expansion will empower users with the choice to select the AI that best
   aligns with their specific needs.


TOKENOMICS



 * Token Ticker: $SOUTH
 * Native Network: Ethereum
 * Total Supply: 1,000,000
 * Tax Structure: 5% Buy/Sell

CHART BUY



$SOUTH was stealth launched on the Ethereum mainnet without any presale. 5% of
the tokens are allocated for the team, locked in linear vesting for 60 days. 15%
of the tokens are allocated for ecosystem supply, locked in linear vesting for
180 days. The remaining tokens are allocated for liquidity.

Liquidity lockup time is for a period of 1 year.

The smart contract's ownership remains unrenounced, with plans to lower taxes
once there is sufficient funding for product development.



 * Utility
   
   As a web-based application, it will require users to connect their digital
   wallets for access. The specific amount of $SOUTH tokens required to access
   the application will be revealed.
   
   With an increase in the market cap, we also plan to introduce a subscription
   model. Payments will be converted into $SOUTH tokens and partially allocated
   to a token buyback and burn program.
   
   

 * Smart Contract
   
   The smart contract we employ is structured to guarantee that any alterations
   made by the owner can not limit or stop trading for the investors.
   
   ● Owner cannot mint new tokens.
   
   ● Owner cannot pause trading.
   
   ● Owner cannot blacklist wallets.
   
   ● Owner cannot set a max transaction limit lower than 0.1% of circulating
   supply.
   
   ● Owner cannot set a max wallet limit lower than 1% of circulating supply.
   
   ● Tax cannot be higher than 10% buy or sell.

 * Dextools
 * Etherscan
 * Uniswap

 * Telegram
 * Twitter
 * Linktree

 * Whitepaper
 * Medium
 * Email

 * Morph2
   
 * Morph3
   
 * Morph4
   
 * Destruction
   

Close Controls