Mutual Multi-service Security Network
White Book

Table of Content

1. Introduction 1
2. Technology Architecture 4
   2.1 Technology Layering Structure 4
   2.2 Logical Node Network 6
   2.3 Consensus Mechanism 7
3. MMS Application 9
   3.1 Application Access and Application Process 9
   3.2 MMS Domain Name Service 10
   3.2 MMS Application- DDSharedStorage 10
   3.3 MMS Application- DDChat 12
4. Economy System 13
   4.1 MMS Token——MMST 13
   4.2 Total and distribution of MMST 14
   4.3 Mining Incentive 14
5. Development Plan 16
6. Management Organization and Council Teams 18
   6.1 Council Organization 18
   6.2 Council Supervision 18
   6.3 Core Members 19
7. Disclaimer 20


1. Introduction

What is MMS Network?
MMS is an infrastructure to construct trusted Internet society, which can provide communication guarantee for application interconnection, provide mechanism guarantee for the reasonable distribution of Internet resources, and provide Internet users with basic consensus on fair benefits distribution.
How the MMS Network is realized?
By applying the peer-to-peer distributed network as the basic technology architecture, MMS network constructs a trust method based on cryptography and a large autonomous cooperative network based on distributed storage.
What is the goal of MMS Network?
With the goal of constructing the next generation of trusted and win-win Internet, the MMS network aims to provide ecological resources for the next generation of Internet applications: network bandwidth, data storage, cloud computing, users, contracts, and security.
What problems can be solved by MMS Network?
It solves the problem of uneven distribution of Internet applications benefits at present: since the current Internet is mainly centralized, the benefits distribution of applications is also centralized. In addition, the rights and interests of Internet resources are increasingly being monopolized by a few people or companies due to the "Giant Effect”. However, most Internet participants who contribute storage, bandwidth, and user resources to the Internet cannot or get corresponding returns. The difference is that in the next-generation Internet constructed by the MMS network, participants can co-construct the Internet and fairly enjoy the benefits generated from their contributions based on the benefits consensus.
It solves the problem of roughly produced Internet content today: centralized platforms have captured the traffic value and attention value of most content creators and platform users with no sufficient incentives for high-quality content, which further lead to lack of motivation for content creators, loss of high-quality content, and loss of high-quality users. However, in the next-generation Internet constructed by the MMS network, the quality of content is based on user voting consensus, the fittest can survive, and the market and quality are regarded as guidelines to encourage content creators.
It solves the problem of Internet insecurity today: at present, the Internet is an open network whose security needs to be achieved through a special security strategy since a large number of intrusions and data leakage incidents follow fast upon one another. In the MMS network, the connection between nodes is authorized by consensus, and all access to the network is realized through smart contracts. In addition, all connections and accesses cannot be tampered with, can be accessed anonymously, and are decentralized. The data in the MMS network is in the form of atomic objects and all data is owned. The data transmission process is traceable through the blockchain block transaction with purpose is to solve the security issues such as copyright and anti-counterfeiting. At the same time, asymmetric encryption is applied in the transmission process, which can solve the data security problem.
It solves the problem of Internet information explosion today: there is a lot of information in the Internet today, so for users, useful data is submerged in useless data. In the next-generation Internet constructed by the MMS network, information is obtained through the application (DAPP), and the application (DAPP) is obtained by the user on demand through the user's active discovery (Active Discover) to filter out useless information.
How can we participate in MMS Network?
The MMS network is the infrastructure for constructing a trusted Internet society. Therefore, in order to support the ecological resources required for next-generation Internet applications, it is necessary to construct a large-scale blockchain node network available for millions of applications and tens of billions of users. The specific nodes are as follows:
Network bandwidth resource node: it is to provide communication basic services. When the coverage of the bandwidth resource node is close to that of the mobile base station, the next-generation Internet can be independent from the mobile network.
Communication resource light node: it is to provide the peer-to-peer network interconnection service and provide data bridging services for low-quality network areas, so as to ensure the availability of MMS network in low-quality network environment. After the mobile terminal is installed with the
2 MMS network node, it automatically becomes a communication resource light node.

Data storage resource node: it is to provide the data storage service and provide data storage support for next-generation Internet applications. When the coverage of data storage resource nodes is close to that of mobile base stations, the data of next-generation Internet applications can be transmitted almost without delay.
Cloud computing resource node: it is to provide cloud computing service. Next-generation Internet applications pay more attention to experience. Traditional processors are not available for large-scale calculations. The cloud computing resource nodes in the MMS network can provide general computing services for next-generation Internet applications to achieve that the user experience has nothing to do with the device, namely, when using next-generation Internet applications, the user experience of devices with strong computing capabilities and those with weak computing capabilities are the same.
User resource node: it is to provide user resource. MMS network is an autonomous network where the nodes are connected by consensus. Therefore, in order to protect the user's network environment, applications are discovered by user nodes through consensus-based autonomous discovery, rather than being distributed through advertising broadcasts. User resource nodes organize user nodes based on voting consensus. The application can be connected with user resource nodes based on the equity allocation consensus, and users can be obtained from the resource nodes. Users in resource nodes are able to vote on applications based on the voting consensus, so as to promote the survival of the fittest in application. The user resource node enables the applications on the MMS network pay more attention to quality and benefit balance without worrying about users, so as to be truly usable and profitable.
Contract node: it is to provide contract algorithm service. The application-level consensus achieved based on smart contracts can be used to next-generation Internet applications to achieve a flexible and trusted application system.

Security assurance node: it is to provide security assurance service with the purpose to intelligently monitor and process availability, fault tolerance, and security of application based on smart contracts. Security assurance node is responsible for smart operation maintenance in MMS network.
MMS Network and sharing economy?
The user's home computer can serve as the storage resource node, bandwidth resource node, and cloud computing node in the MMS network, so as to help users commercialize idle storage space and computing resources through sharing. Based on the application on the MMS network, it can also help users to value the stored original digital content (photos, videos, articles, live broadcasts, etc.) through sharing, so as to realize value circulation through blockchain technology, and to reconstruct the ecology of cloud storage, cloud computing, and the Internet industry with distributed technology.
It need to be noted that the MMS network is a true resource sharing network where users can get token rewards through sharing resources. At the same time, users can also exchange resources by pledging tokens, thus a true sharing economy and on-demand distribution can be realized.
For example, users can use desktop computers that have been idle for a long time as resource nodes and obtain token rewards by sharing storage space. At the same time, the user exchanges for distributed storage space by installing the application end of the MMS network on the mobile phone and pledging tokens, so that personal convenience in the use of storage space can be realized.

2. Technology Architecture

2.1 Technology Layering Structure
In a technical sense, the MMS network applies a six-layer structure. From low to high, they are: data layer, network layer, consensus layer, incentive layer, resource layer, and application layer. The lower layer is the basis of the upper layer, which constitutes the entire MMS network.
Data layer: It is the lowest level technology and the foundation of everything in the MMS network where two functions are realized. One is the storage of related data, and the other is the realization and security of accounts and transactions. The data storage is mainly based on the Merkle tree and is realized through the block method and the chain structure, and the

persistence is realized through the KV database. Accounts and transactions are realized based on a variety of cryptographic algorithms and technologies such as digital signatures, hash functions, and asymmetric encryption technologies, which ensure that transactions can be performed safely under decentralized conditions.
Network layer: It is to realize the connection and communication of MMS network nodes, so it is called peer-to-peer technology. It is an Internet system relies on user groups for information exchange with no central server. Different from the central network system with a central server, each user end of a peer-to-peer network is not only a node but also a server. Therefore, it has the characteristics of decentralization and robustness.
Consensus layer: It is mainly to achieve the consistency of transactions and data of all nodes in the MMS network to prevent consensus attacks such as Byzantine attacks, Sybil attacks, and 51% attacks. Its algorithm is called the consensus mechanism, and the MMS network applies the original R-VPOS+DPOS+BFT consensus.
Incentive layer: It is mainly to realize the issuance and distribution mechanism of MMS network token. The MMS token, which can be obtained through pledge rewards or voting rewards, is positioned as the fuel for the operation of the entire blockchain network. At the same time, it is necessary to show a certain token to the miner when running smart contracts, sending transactions, and carrying out data-related operations on the application chain.
Resource layer: It is mainly to divide the role of MMS network nodes, including resources such as storage, bandwidth, computing, community, supervision etc. needed to support MMS network applications.
Application layer: It is mainly to realize smart contract virtual machines, and continuously develop and integrate smart contract-based applications, including: secure communication applications, digital identity verification applications, shared storage, digital copyright, etc.

2.2 Logical Node Network
In a logical sense, the MMS network is composed of nodes with different functions, including: Witness, DAPP, Computation, Storage, Contact, Monitor, NET, and Community where the Witness is responsible for generating blocks

and distributing rewards, rather than directly participating in the application network.


On the MMS network, nodes of different roles are connected peer-to-peer, which enables applications to obtain resources in an optimal way. The number of nodes in each role is not limited where the more nodes, the stronger the network availability. Based on the P2P characteristics of the underlying nodes of the MMS network, nodes of any role on the chain can be used by multiple applications on demand, so as to realize the sharing of the entire blockchain resource layer. Different nodes are organically combined, so that the MMS network application network is formed.
2.3 Consensus Mechanism
POAU is the abbreviation of Proof Of Actual Usage. Users can obtain the right to use resources by pledged tokens when the MMS network is running. Users can randomly use resources in the network. According to the token value corresponding to the resource, the resource provider regards the token pledged by the user as the pledge token reward of the resource provider.
POR is the abbreviation of Proof Of Resource. Before block generation rewards, it is necessary for witnesses to randomly select 5 resource nodes of the same type to form an inspection group, and mutually check the amount of storage space. When rewarding, nodes that are not online will not be rewarded, and nodes that are rejected by the inspection group will also not be rewarded. Undistributed rewards are assigned to the platform address.
R-CPOS is the abbreviation of Role-Contribution POS. In the MMS network, the resource contribution reward adopts the R-CPOS algorithm

where each participant is rewarded according to the resource contribution ratio and the pledge token ratio. After each generation of block, the resources provide reward are distributed according to the amount of resource contribution and the number of pledged tokens.
T-DPOS (Two Stage-Delegated Proof Of Stake) is a consensus mechanism based on the proof of stake of the secondary principal, and it is mainly used to achieve the consistency of distributed ledgers and the balance of blockchain nodes. Under the T-DPOS mechanism, N witnesses who can sign the block are generated through secondary voting. Due to the
implementation of the secondary decentralized voting mechanism, T-DPOS is not only democratic but also stable, which can ensure not only the honesty and candidness of witness's behavior, but also the stability of the vote. At the same time, each block can prove that the previous block was correctly confirmed by the witness.
The pseudo code of the T-DPOS mechanism is implemented as follows: for round i
d list J = get N delegates sort by votes
d list J = shuffle(dlistj)
slot = global_time_offset / blockjnterval
pos = slot % N
if delegates[pos] exists in this node
generateBlock(keypair of delegates[pos])
Witness nodes of the MMS network are responsible for generating blocks in turn, community nodes are responsible for voting for witnesses, and user nodes are responsible for voting for community nodes.

Mte f(y Z witness rode Vbte for communfy node
BFT (Byzantine Fault Tolerance) is a model for distributed systems to measure the tolerance of faults. If a distributed system can tolerate any fault (include hardware fault, network congestion and delay, hacker attacks, and node mutiny), it can be believed that the system has reached Byzantine fault tolerance. Lamport had already proved the feasibility of Byzantine fault tolerance in papers as early as the 1980s. However, there has not been a practical and efficient algorithm. It was not until 1999 that castro and liskov published PBFT (Practical Byzantine Fault Tolerance) which turned BFT theory into a practical solution for the first time.
The MMS network applies the consensus mechanism of the combination of POAU+R-CPOS+DPOS+BFT, which can not only enhance the security of DPOS and make it tolerant of Byzantine fault, but also guide the reasonable allocation of network resources for services.

3. MMS Application

3.1Application Access and Application Process
The MMS network provides data storage, network bandwidth, cloud computing, contracts, monitoring, communities and other services for the next generation of Internet applications, reshapes the development process of Internet applications, reduces the difficulty of application development and operation, and enables more innovative applications to be realized with low cost.


After the MMS network application is connected to the process, qualified developers (individuals or companies) will apply for MMS application nodes and develop applications based on smart contracts. The application obtains the access rules of the resource node interface from the contract node through the smart contract, and accesses the service of the resource node through the RPC interface.
In the use process of the MMS network application, the application is first broadcast to the community node. After the application is experienced and evaluated by the community node, it is pushed to the user node associated with the community. The association relationship between user nodes and community nodes is established by voting. Community nodes vote and evaluate applications and obtain rewards for application revenue. After the user node is recommended by the community node, it obtains the application from the application node and accesses the service provided by the application.
3.2 MMS Domain Name Service
The MMS network is an anonymous network whose nodes are connected through a routing algorithm. The MMS domain name service can solve the

problem of target address query, so that users can access the designated application node through the domain name of the MMS network, and can use the service provided by the application node. Application nodes provide a variety of services which theoretically include all applications on the Internet including web services, search services, taxi services, shopping services, etc. Different from the Internet, once the MMS domain name is bound to a node, a homepage belonging to the node will be automatically generated. All users in the MMS network can look for the public information of the node through the domain name.
3.2 MMS Application- DDSharedStorage
The DDSharedStorage developed by the MMS free community is a decentralized storage and storage-providing application which can be realized based on the MMS network. Participants can share their own storage resources to obtain token rewards. At the same time, distributed storage space with the advantages of encryption, fault tolerance, and fast access can also be applied. Users can also directly link their other devices through the P2P access feature of the MMS network node to realize the private cloud storage function.
Platform user:
The storage space has become an important commodity with the unprecedented expansion of amount of data today. Institutions such as scientific research departments and enterprise development departments often need huge storage space in a specific period due to periodic tasks or unexpected demands, which is not enough to enable them to purchase and maintain too large storage space for a long term. Therefore, the “shared space” is of extremely market potential. The main potential customers of DDSharedStorage applications include:
Government departments;
Small and medium-sized enterprises;

Accounting firms and other enterprises whose business is of cyclical characteristics;
Small and medium-sized scientific research institutions;
Universities and their affiliated research institutes;
personal users.
Source of storage space:
The storage sources of DDSharedStorage have obvious advantages. Countless storage spaces in contemporary society are in a dormant state and cannot create any value whether in a personal computer, an idle old mobile phone, or a game console that only plays for one or two days a month. After DDSharedStorage is applied, the owners of these storage spaces can get high cloud storage service fees buy just paying a negligible electricity bill, which is very profitable with a little cost or even with no cost. In addition, no cost is required for connecting DDSharedStorage. However, theoretically, all devices with storage capability are allowed to be connected to the space pool of DDSharedStorage in order to rapidly expand the source of storage space.
Sharing reward mechanism:
Users can share their idle storage space in the form of storage nodes and obtain MMST according to storage reward rules. Users can exchange the right to use distributed storage space by pledging MMST, and the exchange ratio is the total MMST of current platform /(current total space/5). The distributed storage space successfully exchanged by users can be used for free storage and access. The pledged MMST is regarded as the pledge token of the resource node according to the contribution of the resource node, and is rewarded to the corresponding resource node in the form of pledge reward.
3.3 MMS Application- DDChat
DDChat developed by MMS Free Community is a decentralized social platform + pan-social application and content distribution ecology which can be realized based on MMS network. The blockchain ecological social platform co-owned, shared, and co-managed by participants is a tool that is available

for low-cost large-scale realization of data rights and a platform for efficient personal data realization.
The data confirmation, privacy protection and digital asset security protection of platform applications can be realized by DDChat through the elD digital identity authentication technology based on blockchain; based on the blockchain data security and privacy protection mechanism, user data is encrypted and processed through cryptographic methods, and information is stored in a distributed manner based on the blockchain decentralization. A data query method with authority control is provided based on this, so as to protect data security, regulate data use, and realize self-control of user information.
End-to-end encryption to protect privacy:
Through end-to-end encryption, the encrypted instant messaging ofchats, emails, and address books on DDChat is realized, which ensures the privacy and security of information transmission, and protects user information and privacy.
Independent storage, management and control of data:
DDChat only provides information transfer services for node users, but does not store any user information and behavioral data. Therefore, when node users apply the DDChat application services, they will autonomously own a distributed storage space which is logically dedicated and based on key pairs on the MMS network, so as to store user personal data with encrypt. The encrypted data stored in the dedicated space belongs only to the user, and can only be obtained after decryption with the user's private key. The information cannot be obtained and used by the platform or any third-party organization without the user's authorization.
Efficient realization of data value can be realized through data desensitization authorization transactions:
User information is stored in a personal dedicated space and can be open for authorization. The decision-making power is entirely owned by the user.

Corresponding rewards can be obtained through the improvement and authorization of user information.
More personalized and customized services can be obtained through multi-community ecological linkage:
The multi-community ecosystem based on the value of national data can not only provide more accurate personalized and customized services, but also manage the communities where you belong more conveniently, efficiently reach more communities, and expand your social network. The community ecology recognizes the contributions of members who can obtain positive incentives from different communities.

4. Economy System

4.1 MMS Token——MMST
MMST is the value certificate of the MMS network, and is also a democratic, standardized and decentralized benefit distribution solution.
Witnesses in the MMS network are responsible for node generation and MMST, and are rewarded in the form of foundation rewards, investor rewards, team rewards, and participant rewards.
On the MMS network, user transactions, resource node usage, smart contract operations, application deployment, and other operations that are related to chain and can directly generate value will be recorded in the block, and MMST will be paid as a transaction fee.
The MMS network belongs to each participant, the social value generated is shared by all participants, and the benefits are distributed according to the MMST holdings.
4.2 Total and distribution of MMST
The total issuance of MMST tokens:
1.3 billion.
Issuing method:
All of them are released in the form of block generation rewards with no pre-mining.

Distribution plan:
Foundation accounted for 6%, investors accounted for 8%, team accounted for 14%, and participants accounted for 72%.
4.3 Mining Incentive
Node category:
1) Witness:
After pledging 100,000 MMST, you become the witness seed. All seeds are ranked, among which the top 99 become witnesses. The pledge of witness seed can be added multiple times with more than 10,000 for each time. It is ranked by competition. The first 31 witnesses are official witnesses, and the last 68 are candidate witnesses. Witnesses who were originally within 99 but later lag behind 99 will lose their qualifications as witnesses and become witness seeds again.
2) Community nodes: After pledging 10,000 MM ST, you have the right to invite user nodes to vote for them; the number is not limited.
The community node can cancel the identity of the community node after all light nodes vote for the community node is canceled.
3) Resource node:
Space node: It is responsible for providing cloud storage space and is distributed according to the proportion of the reward index according to the size and time of the space; at least 10,000 MMST shall be pledged, and the number of pledges can be increased.
Bandwidth node: It is responsible for providing bandwidth; it pledges 10,000 MMST and is temporarily closed.
Computing node: It is responsible for providing computing services; it pledges 10,000 MMST. There are few applications in the early stage, so it is temporarily closed.
Contract node: It is responsible for the registration, verification, and invocation of contract and resource node services; it pledges 10,000 MMST. There are few applications in the early stage, so it is temporarily closed.

Monitoring node: It is responsible for the availability evaluation of application services and resource node services; it pledges 10,000 MMST. There are few applications in the early stage, so it is temporarily closed.
4) User node: It is also called light node. All users can be user nodes; if 10 MMST are pledged, it means that it participates in the MMS network. It can participate in voting.
Reward incentive:
6% of the MMST obtained by the witnesses is distributed to the foundation, 8% is distributed to investors, 14% is distributed to the team, 39% is distributed to all resource nodes according to the resource reward rules, and 33% is distributed to witnesses, community nodes, and light nodes according to the voting reward rules.
In terms of the resource reward rules, 3% of 39% is used as an evenly divided reward (equally divided according to the number of nodes), 10% is used as a pledge reward (weighted rewards based on the pledge amount of all resource nodes), and 26% is used as a contribution reward (weighted rewards based on the amount of storage space provided). Reward method applied by POAU space:
The number of rewards for pledged tokens = the amount of resources provided * the total number of tokens / the total amount of resources
R-CPOS resource contribution reward method:
Pledge reward = (number of node pledged tokens + quantity of pledged token rewards) * total amount of pledge rewards for the current time / total pledged token quantity 0
Contribution reward = current contribution amount * current contribution reward / total contribution reward
The distribution method of transaction fee on the MMS network is the same as that of the MMST obtained by the witness through block generation.

The rules of voting rewards (33% in total): 10% of the voting rewards (2% are distributed to all witnesses on average, 8% are weighted equally based on votes) are distributed to the witnesses, and 90% are distributed to the community nodes that vote for it (weighted equally by the number of votes). 10% of the tokens obtained by community nodes are distributed to the community nodes themselves, and 90% are distributed to user nodes (light nodes) that vote for them.
Store rewards, 19 records at a time: Because the first time 25% will be directly allocated to form a record, the remaining 75% is divided into 18 parts, released in 180 days, and released once 10 days, with one frozen record for each copy. The frozen record chain will be automatically released according to the block height.
Storage rewards are distributed every 10 minutes, and the rewards content every 10 minutes are also distributed together: rewards are based on block, but storage rewards require rotated training of nodes, so it is set to distribute every 10 minutes. Each time 3% block reward will be averaged by all storage nodes, and 10% among them is equally divided according to the number of pledges. Since the current pledge is 0, it is also divided equally, and 26% is weighted to distribute according to the storage space.
The storage reward should be increased each time according to the block reward: increase 0.00347 for every 31 blocks, which is equivalent to an increase of 0.00347*13%/the number of nodes+0.00347*26%*the number of nodes/total storage for every 31 blocks. . For example, 4 nodes, a total of 50G, a node storage contribution 10G. Then it is 0.00347*13%/4+0.00347*26%*10/50=0.00029. The direct reward part is 25%, that is, 0.00029*25%=0.0000725. 10 minutes is 60 RMB, the increase is about 0.00014, and 100 minutes is about 0.0014.

5. Development Plan

January 2018 The project was establishment
March 2018 The start-up team was built
April 2018 The design draft of MMS network product was completed
May 2018 Technical research and selection was completed, and develop was start
July 2019 The main framework of MMS network was completed
May 2020 The distributed storage was complete
November 2020 The economic model was complete
In June 2021 The test node to MMS network was launched, and the technical testing on PC-end wallet began
August 2021 Multiple test nodes to MMS network will be launched, and the technical testing on mobile-end wallet will begin.
September 2021 The MMS network node and wallet functions will be officially launched, the public testing to MMS network will be released, and the RPC interface will be available
October 2021 The public test on the PC-end of the DDSharedStorage application will be started, and the public test of MMS network for all nodes of devices in the Internet of Things will be started.
November 2021 Witness node recruitment will be started, resource node pledge will be started, community node will be started, and voting will be started
December 2021, the public test to the mobile end of the DDSharedStorage application will begin, and the public test of MMS network to all nodes on the mobile end will begin.
January 2022 The public test to PC end of the DDChat application will start
February 2022 The public test to mobile end of the DDChat application will start
May 2022 MMS network domain name can be registered
December 2022 MMS web application can be accessed to SDK
March 2023 MMS network computing nodes will be publicly tested
April 2023 MMS network monitoring nodes will be publicly tested
August 2023 The open source community of MMS network application

development is online
September 2023 The MMS network is gradually open sourced on the open source community of MMS network application development starting from smart contracts, and the next generation of the Internet era begin will begin.

6. Management Organization and Council Teams

6.1 Council Organization
In order to ensure the openness, transparency and stable development of the MMS project at the initial stage, MMS established the highest decision-making organization- Decision Committee to manage it.
The Decision Committee includes Business Committee, Technical Committee, Comprehensive Affairs Committee, and Community Development Committee. The management organization will be composed of developers and Functional Committee.
The members of the Decision Committee serve for a two-year term. The members of the first Decision Committee consisted of members of the MMS core team, celebrities in the blockchain industry, legal experts, representatives of witness nodes and early investors. Some members of the subsequent Decision Committee are elected by the community.
6.2 Council Supervision
The MMS Council tries hard to formulate and implement a good governance structure, to implement voluntary supervision in the form of an association on the basis of mutual trust between the two parties, and help and manage general and privileged matters of the ecological community.
The main goal for designing the governing organization of the MMS Council is to provide necessary non-profit node supervision, node promotion, and technical contributions when the autonomous ecology of MMS is not formed in the initial stage of MMS, so as to promote the healthy and stable development of MMS. The governance of the ecological community in the initial stage of this project is mainly coordinated and planned by the Council.
6.3 Core Members
The MMS project was initiated by Abel Bush and Brian White from Silicon Valley. Abel Bush obtained a master's degree in computer science in the Massachusetts Institute of Technology who has won many scholarships of various levels during the stay in school. He started working at Google in his junior year and directly became the leader of Google's blockchain application development team after graduation. He has been committed to the deep development and practical promotion of blockchain technology over the years. He is a top engineer in the blockchain field who led the construction of the underlying architecture of the MMS network platform.
Brian White obtained both degrees in computer science and management from the University of California, Berkeley, and is also the director of the User Security Service Center in Facebook. His work at Facebook enables him fully realize the importance of data security, and then he tries his best to realize the secure and efficient transmission of massive amounts of data through the application of blockchain. And his education background of management is the key to establish the MMS core team.
In addition to the two initiators, MMS also greatly focuses on the importance of talent reserves for the development and supervision of the project. Since the establishment of the project, it has vigorously promoted the construction of the talent reserve. At present, one core development and management team whose members come from all over the world, graduated from MIT, Stanford University, Georgia Institute of Technology, Waseda University, Tsinghua University and other well-known domestic and foreign universities, possess the work experience in top international Internet companies such as Facebook and Google, and covers the professional scope of software development, front-end development, data link architecture, and human resources have been formed. With outstanding professional capabilities, as well as tacit cooperation and strong cohesion among members, the core team will be able to provide continuous human and intellectual support for the growth of the MMS network.

7. Disclaimer

This document is only for information conveying. This document is neither any investment advice, investment intention or instigation to invest, nor any form of contract or promise.
MMST refers to the value of circulating equity in the MMS network, and is a proof of ownership to maintain the internal ecological stability of the MMS network. MMST has no value of legal money and has nothing to do with legal money. After the applications on the MMS network provide users with paid services, users shall pay them legal money as compensation. Any individual who recognizes the MMS network can freely participate in the MMS network without any paid commitment. Anyone can collect MMST through legitimate means without any paid commitment.

Smart Services

PC wallet

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