LEEP Technology

A symphony of technical features that facilitate a deep data economy.

Problem

Today’s tools don’t enable the full potential of data. Big Data needs tools to enable real time analysis, automate business processes and sell and share access to data and broker data access. With the current situation systems work in silos, even when leveraging blockchain technology. Current solutions aiming to solve the silo problem or aiming to solve the big data problem are either to expensive, or lack flexibility as well as requiring businesses to work in completely separate private networks. Making it hard to extract the value of the data and make the systems communicate and share the data when wanted.

Sustainability data can be characterized by its velocity, variety, and volume. This overlooks two key problems, its veracity and versatility. When trying to harvest the benefits of the technology for sustainability purposes the input data lacks veracity and over 50% does not trust sustainability data, and under 1% of the data is analyzed.

Blockchain designs have experienced many iterations of familiar patterns, resulting in common limitations. These limitations need to be creatively surpassed with a standard setting infrastructure in order to achieve sustainable metrics.

Scalability

Too few transactions per second limit the global economy.

Efficiency

Delays in transactions, watt-hours and server costs.

Flexibility

Different transaction types for various industries.

Security

Double spend, availability, proof, prevent theft and loss of value.

Cost/Time

A scalable high availability network to process transactions.

Adoption

Technology needs to be easily adopted and implemented.

Usability

Overly complex systems prevent users from following directions.

Integration

Become part of existing workflow and API seamlessly.

Solution

LEEP is the necessary blockchain infrastructure to realize the potential of big data and blockchain. With DAG tagging LEEP makes blockchain scale while breaking down data and network silos. By utilizing plugins and gateways, LEEP is able to integrate with existing systems delivering real-time reports and business automation. LEEP is not only a blockchain, it is the complete infrastructure businesses need to unlock the full value of their data.

Leep network adds veracity and versatility to data by using self calibrating sensors that cryptographically signs data, and by making data adhere to certain standards leep adds versatility and allows for easy analysis of data, for example by an AI layer. Leep will develop a range of sensors, covering the demands of advanced supply chain as, lifecycle tracking, as well as measurement of CO2.

Value proposition
Leep is collecting, delivering and processing data for a sustainable deep data economy with smart contracts and connected big data.
One of LEEPs unique value propositions is the ability to map any quantitative data analysis, and making it useful for the business. LEEP enables secure storage, access and transit to data. Furthermore, LEEP can create gateways for data storage or repackaging from proprietary protocols that will enhance and improve a number of industries. Some of there industries are: oil and gas, renewable energy, medical, health care, supply chain and smart cities.

"Our technology can be easily utilized for business implementation and will fit existing architecture"

Technical Features

Pollen Protocol

Pollen is the dynamic protocol that intelligently monitors, safeguards, and delegates transactions across our network, while adapting to and mitigating network overhead as it scales.

Gateways

Seamless integration with our network for existing smart contracts and applications that can be quickly migrated on our forward compatible virtual machine.

Float nodes

Dynamic Float Nodes optimize performance, mitigate network congestion, and dynamically shift network resources.

Ethereum forward compatibility

We help applications seamlessly integrate into our network with migration tools. This allows existing smart contracts can be quickly migrated on our forwards compatible virtual machine, and benefit from resources, expertise, and contract state.

Acid compliance

ACID-compliant databases immutably store Big Data for fast and secure storage and access. 

Light chain

A fast and lightweight historical blockchain that stores a summary of all transactions in time synchronized blocks.

Time synchronization

LEEP’s ledger is time synchronized to a real-time clock every 10th block, every minute, enabling Smart Contracts with a precise time window. This precision is not found in other solutions where the block creation cadence deviates by up to 20%

Indra Dag

We employ a Directed Acyclic Graph with 100% closure, fragmenting our network safely for true scalability.

DAG-closure ensures there are no orphans or danglers and creates immunity to known network attacks.

Glypto data structure

One size does not fit all. The Glypto data structure allows our network to perform ACID-compliant database operations on complex and varying datasets atomically.  Transactional metadata of these records is stored in the Light Chain instead of on-chain superfluity.

Explore Further

“What we want to do is take the SAP systems, databases and similar and make them talk together like bankers used to make phone calls but now uses FIX protocol. We take your data processing and delivery to the next stage.”

Enterprise Solutions

LEEP provides solutions for large and enterprise scale networks that need resources to process large amounts of data atomically and securely. Plugins enable your Business to operate similarly as before, but with increased speed and automation as well security. With the addition of gateways the leep infrastructure can handle any type of data.

Security

Our network is highly resistant to major attacks without relying on hash power resources. LEEP provides secure privacy in storage, transit,  and delivery of data with unprecedented security. Goldilocks 448(elliptic curve) provides the public key security needed. AES( Advanced Encryption Standard) encryption is used for data in transit.To mitigate the security risk of wrong implementation of the LEEP technology, we want to work together with their certified consultancy aiding the implementation and avoiding setting the wrong permissions on data.

ACID-compliance

Businesses require an accurate, true state of the information stored. ACID compliant databases are the way to access and store data securely with immutability. LEEP Network implements these principles to prove transactions securely and atomically. ACID compliant transactions are inventory and banker safe,this means that a group of transaction either all succeed or all fail, ensuring there is never any ambiguity. Don’t pay for product you don’t receive. Don’t sell product you don’t have. The Glypto data structure allows our network to perform ACID-compliant database operations on complex and varying datasets atomically. ACID-compliant databases immutably store Big Data for fast and secure storage and access. Transactional metadata is of these records is stored in the Light Chain instead of on-chain superfluity.

No More Private Ledger

LEEP allows your enterprise to keep the benefits of having a private network, without having one. Using DAG-tagging, LEEP allows you to stay connected by submitting and validating summaries of transactions together with cryptographic proof. This keeps transactions themselves semi-private while remaining connected and resulting in huge data processing and delivery capabilities. With the ability to leverage local resources for your own transactions, there is no longer any need for keeping data on local networks hidden in silos Summaries of transactions are submitted after verification, with details managed on a per DAG tag basis.

Expandable

LEEP is building tools, plugins and gateways that allows for seamless conversion from proprietary to LEEP native protocols as well as seamless integration with current systems like SAP. Gateways are better than oracles because not all information needs to be stored on the blockchain forever. For example In the event of an oil delivery, the order is processed, shipment carried out, and reception of goods verified through gateways, triggering on-chain conformations and payments. The value of that data ceases to be important as soon as the transaction is complete and there is no need to be able to replay the whole process forever. The data had value realtime and LEEP enabled that value. In addition LEEP enables complex transactions meaning that transactions themselves can rely on a list of conditions, an important feature for supply chain. It is our intention to let the enterprise pick the data retention policies, provide verification, storage marketplace at different cost tiers, replication of data and archive storage of off chain data. Petabytes of connected storage is the anticipated scale. Not all data needs to be transmitted to every node. Reverse lookup provides info on where to ask.

Consensus

The LEEP per block consensus mechanism with 100% closure makes DAG safe. By stipulating closure as a requirement, LEEP does not derive its security from hashing power (PoW) or the number of tokens that are held by individual node holders (PoS), but through the consensus protocol’s unique implementation. A smart transaction-aware network layer can escalate safety mechanisms as necessary. This unique approach allows LEEP to scale in a safe way which in turn makes us more usable. Instead of every node processing every transaction, only relevant and verification nodes process the transactions.

Scalability

The requirements to proof all work as a consensus mechanism is a standard security versus scalability trade-off. LEEP offers a novel solution eliminating this trade-off: secure scaling. Adding more machines to the network or your DAG-tagged network will speed up the network, as opposed to current solutions. Thus the network will scale without compromising security. This is possible because LEEP reduces the degree of syndication and thus serialization, and the serial writing of blocks can become a semi-distributed process, therefore also reducing the cost and degree of resource contention, while also greatly reduce the degree of unnecessary crosstalk. As per universal scalability law(USL) this brings LEEP closer to linear scaling. When picturing contention, imagine a city just having on road in and out , creating traffic jams(serialization), it does not help to build more roads inside or outside the city. The amount of serialization and thus contention remains the same, and adding more roads and traffic with the same degree of serialization will eventually create diminishing returns for the amount of new roads, the throughput does not scale, it will even reduce. LEEP attacks contention by reducing serialization and making the network scale with the number of machines. LEEP increasing the number of roads in and out of the city, actually making it worthwhile to add more roads. To further extend this analogy with traffic illustrations, we could say that the freeway example is our scalable network infrastructure which includes DAG with closure as one of many safety features.
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