IPv17 is the future of data transfer. We transmit your data around the world 17 times faster! We have a software solution that enables enterprise customers to transfer their data around the world 17 times faster that they can not using current standards. Unlike other companies that have data acceleration technologies our solution does not require additional hardware or bandwidth as a result, we are half the cost of any other solution. Our product will help you cope with the explosive growth of traffic reducing per-unit investment and energy consumption.

1. We can help you transmit data around
the world 17 times faster!
IPv17

2. 2 IPv17| 08 June 2015 IPv17
17х faster traffic
Technology — Software that provides the
following benefits on the same network:
IPv17
• Significantly increase
the speed of data delivery
• Improve the integrity of
data transfer
• Ensure the security of data
exchange
• Cost reduction
People
Processes
Data
Things
Cost
Speed

3. 3 IPv17| 08 June 2015 IPv17
Intro
The Net’s basic flaws cost firms billions, impede
innovation, and threaten national security.
by David D. Clark on December 19, 2005

4. 4 IPv17| 08 June 2015 IPv17
What happens in an Internet minute?
And future growth is staggering

5. 5 IPv17| 08 June 2015 IPv17
Global challenge
exponential growth of information flows
● Internet traffic growth +21%
• Multimedia traffic share growth +2,3%
● Current Hardware & Software infrastructure limits
• TCP/IPv4 (1981) and IPv6 (1999)
• Cybercrime losses ~1,4% of GDP
● High cost of network hardware upgrade and bandwidth
51
62
76
91
110
132
2013 2014 2015 2016 2017 2018
IP traffic
EB monthly
+21% annually
Source: Cisco VNI, 2014, Infosec Institute, 2013, BII estimates
2004 2006 2008 2010 2012 2014 2016 2018
Internet devices
20
16
12
8
4
0
Billions

6. 6 IPv17| 08 June 2015 IPv17
Do you know?
Current
technology
TCP/IP
● What will be tomorrow?
● How many cache servers?
● What about traffic?
● What about cyber threats?
● What is the upgrade cost?
● What about time?
● CDNvideo
● 26 cache servers
● Up to 110 movies per day
● About 40 GB each
● 4.4 TB in total
● It takes 23 hours

7. 7 IPv17| 08 June 2015 IPv17
Solution
IPv17
● Simple migration
• Compatibility with current apps
● 7х providers cost
reduction:
• Control system
• Software update
• Service techs education
• Service techs
● 17x faster user data transfer
on the same network
● Data security
● Integrity of data transmission
● No hardware upgrade
• To reduce the electricity bills
• Decrease OPEX

8. 8 IPv17| 08 June 2015 IPv17
Technology explained
IPv17 does:
● Use new principle of
packet creation
● Use new error protection
algorithm
● Use new error recovery
algorithm
● Transfer rate control
● Connection control
IPv17 works without:
● Compression
● Deduplication
● Bundle small files
● Multi-thread service

9. 9 IPv17| 08 June 2015 IPv17
Market
PAM $14B
TAM $7.7B
SAM $2.7B
SOM $1.5B
2.70
2.77
2.84
2.91
2.98
3.05
3.13
2012 2013 2014 2015 2016 2017 2018
Core Router
B, USD
+2,5% annually
Source: Ovum Driving Innovation in the IP Core, 2014

10. 10 IPv17| 08 June 2015 IPv17
Priority B2B business model
Product
Technology
Software
Service
Customer
CDNs
Data centers
Cloud services
Online game portals
Corporate networks
Apps developers
Online stores
Telecoms
Partner
Manufacturer
Integrator
Distributor
License
Support
Update
Equipment
Support
Update
Integration
Time and / or intensive of use depending price

11. 11 IPv17| 08 June 2015 IPv17
Competitors
TCP/IP Panasas Google Fujitsu Hardware IPv17
Issued 1981 Proprietary Dec 2015 Proprietary By order May 2015
X faster <4x <12x <7x <30x x >30x
Cbps 6.3 - - - - 0.1
Bitrate on
demand
X X X X X V
Secure X X X X X V
Cost - - - - $$$ $$$
Integration - - - - $$ $$
Support - - - - $ $
Principle
traditional
packets
multi session
data
compression
additional
level
hardware
upgrade
new unique
approach
IPv17
Source: Panasas, 2014, Google, 2013, Fujitsu, 2013

12. 13 IPv17| 08 June 2015 IPv17
Russian
patent
Articles in
trade
magazines
Consulting
with experts
Customer
development
Acceleration
in GVA
LaunchGurus
Customer
interest
Prototype
Test on the
Telecom
test zone
Current status and progress
Source: Vestnik Sviazy, March 2013, January 2015, February 2015, May 2015
• Kaveh Ranjbar, CIO, Ripe NCC
• Jari Arkko, Ericsson Expert, IETF Chair
• Networking University in Saint Petersburg, Russia
USA

13. 14 IPv17| 08 June 2015 IPv17
Action plan 2015-2018
2015 Smart
investor
Product
Patents
Seed
2016 Partnership Customers A round
2018 Product
range
Service
range
B round
2020 On chip
Industry
standard
C round

14. 15 IPv17| 08 June 2015 IPv17
Team
Sergey Valov
CTO
Co-founder
Serial entrepreneur with 20 years of experience,
programmer with 30 years of experience.
Vasily Prosin
CEO
Co-founder
15 years in Sales and marketing management, Olympic
operational experience: Coca-Cola, GVA LaunchGurus
Lawrence Wright
Mentor
Adviser
Serial entrepreneur, occasional business angel
investor, mentor.
GVA LaunchGurus
John R. Grizz Deal
Mentor
Adviser
has over 25 years of experience in technology
commercialization, tech-based startups, fast
growing ventures, and product development
Gary A. Fowler
Mentor
Adviser
an award winning marketing guru,
entrepreneur, business coach, mentor, TEDx
presenter. GVA LaunchGurus

15. 16 IPv17| 08 June 2015 IPv17
We need
● Customers
● $500,000 seed investments
● Smart investor
• Consulting
• Customers
• Next round investors
12 months
Team salary:
• R&D $100,000
• Sales team $50,000
• Support team $90,000
• Managers $50,000
International patents $130,000
General costs (office, hosting, software etc.) $55,000
Marketing costs $25,000
Total $500,000

16. 17 IPv17| 08 June 2015 IPv17
Contacts
Vasily Prosin
CEO
vasily.prosin@gmail.com
+7(926)232-2655
17x faster data transfer

17. Finance appendix
IPv17

18. 19 IPv17| 08 June 2015 IPv17
Benefits
Regular IPv17

19. 20 IPv17| 08 June 2015 IPv17
Latency depending rate
0
0.2
0.4
0.6
0.8
1
0.02 0.04 0.1 0.2 0.4 1 2 4
Mbps
11x
17x
40x
IPv17
TCP
Sec
The bigger the latency the greater the advantage!

20. 21 IPv17| 08 June 2015 IPv17
Business model B2B
Product
Technology
Software
Service
Customer
CDNs
Data centers
Cloud services
Online game portals
Corporate networks
Apps developers
Online stores
Telecoms
Partner
Manufacturer
Integrator
Distributor
License
Support
Update
Integration
License
Support
Update
Equipment
Support
Update
Integration
Strategic
partner
Technology Product
Time and / or intensive of use depending price

21. 22 IPv17| 08 June 2015 IPv17
Segments
Library udtp.dll,
libudtp.soMiddleware WebSocketPlus
Application udrSync
On chip Firmware
Transfer rate V V V V
Delivery quality V V V
Delivery
efficiency
V V V
Compatibility V V
Customers ● Equipment
producers
● Data centers
● Clouds
● CDNs
● Clusters
● Backup
● Online games
● Web services
● E-shops
● DB replication
● Mobile App
● Smart TV
● Web clients
• IE
• Chrome
• Safari
• Firefox
• Opera

22. 23 IPv17| 08 June 2015 IPv17
Action plan 2015-2020
● International patents for IP
● Smart investor in Silicon Valley
● US market expansion
● First sales
● Promo
● Conferences
● Articles in magazines
● Updates and new versions
● 8% market share
● Product and service range
• Sync services
• DB replica and Big Data
• Backup services
• IPv17 integration into devices for IoE
● IPv17 de facto standard
● Internet of Everything
● Internet 3.0
2015 2016 2018 2020

23. 24 IPv17| 08 June 2015 IPv17
Finance
2016 2017 2018 2019
0.4 1.0 2.0 4.0
0.5 1.2 2.5 5.0
0.7 1.4 3.0 6.0
0
1
2
3
4
5
6
Cost, $M
2016 2017 2018 2019
Optimistic 5.8 11.9 24.4 49.8
Realistic 2.9 6.0 12.2 25.0
Pessimistic 1.5 3.0 6.1 12.5
0
5
10
15
20
25
30
35
40
45
50
Revenue, $M
𝐶𝐴𝐺𝑅 =
𝐸𝑛𝑑𝑉𝑎𝑙𝑢𝑒
𝐵𝑒𝑔𝑖𝑛𝑉𝑎𝑙𝑢𝑒
1
𝑁𝑢𝑚𝑏𝑒𝑟𝑂𝑓𝑌𝑒𝑎𝑟𝑠
− 1 =
25
2,9
1
2019−2016
− 1 = 105%

24. 25 IPv17| 08 June 2015 IPv17
2016 2017 2018 2019
Optimistic 2% 4% 8% 16%
Realistic 1% 2% 4% 8%
Pessimistic 0.5% 1% 2% 4%
0%
2%
4%
6%
8%
10%
12%
14%
16%
Market share,%
Finance
2016 2017 2018 2019
5.4 10.9 22.4 45.8
2.1 4.8 9.7 20.0
0.8 1.6 3.1 6.5
0
5
10
15
20
25
30
35
40
45
50
Gross profit, $M

25. 26 IPv17| 08 June 2015 IPv17
Evaluation
2016 2017 2018 2019
Optimistic 10 30 70 150
Realistic 5 20 50 100
Pessimistic 2 10 20 50
-10
10
30
50
70
90
110
130
150
Value, $M
● Exponential growth
● Exits for investors

26. IPv17
Network technology
Principles

27. 28 IPv17| 08 June 2015 IPv17
IPv17 principles
IPv17 technology is based on the system
self-organization principles:
● Self-Routing
● Broadband on Demand
● All-address space
● Non-Anonymous

28. 29 IPv17| 08 June 2015 IPv17
• IoT
• Hard IP
• Embedded
• Window
• Linux
• Android
• OS X, iOS
• OTT
• Games
• Marketplace
• DB replication
• Sync app
• Backup copy
• Cloud disk
Application Middleware
Hard IPSystem Lib
Technology based products

29. 30 IPv17| 08 June 2015 IPv17
Physical Layer Capabilities
3G
LTE
Wi-Fi
Ethernet
Rate 3G 4G LTE 5G Wi-Fi Ethernet
Bandwidth 42 Mbps 150 Mbps 10 Gbps 1.7 Gbps 100 Gbps
Real 7 Mbps 30 Mbps 7 Gbps 300 Mbps 75 Gbps
IPv17 30 Mbps 80 Mbps 9 Gbps 1 Gbps 93 Gbps
% 328% 166% 29% 233% 24%
All comparisons are approximate and are
used only to illustrate differences.

30. Appendix
IPv17
Network technology

31. 32 IPv17| 08 June 2015 IPv17
Internet Protocol
is a set of technical rules that defines how computers communicate
over a network. There are currently two versions: IP version 4 (IPv4)
and IP version 6 (IPv6).
• IPv4 is the fourth version in the development of the Internet
Protocol, and routes most traffic on the Internet. IPv4 is described
in IETF publication RFC 791 (September 1981), replacing an earlier
definition (RFC 760, January 1980).
• IPv6 is the latest version of the Internet Protocol (IP), the
communications protocol that provides an identification and
location system for computers on networks and routes traffic
across the Internet. IPv6 was developed by the Internet
Engineering Task Force (IETF) to deal with the long-anticipated
problem of IPv4 address exhaustion. IPv6 is intended to replace
IPv4.
Wikipedia

32. 33 IPv17| 08 June 2015 IPv17
The problems of the current Internet
The problems of technologies based on IP protocol:
1.Uncertainty – addresses of MAC, IP and URI may vary, so the source of information
exchange can not be identified reliably. It provides an opportunity to take any actions on
network, including unlawful.
2.Credulity – network applications set the type of transmitted information independently.
Accidental or purposeful alteration of the traffic type causes equipment overload, which
brings to collisions and to denial of service.
3.Consistency between – all routing tables of autonomous system must be identical.
Overloads, collisions, and accident lead to change topology of network, which causes
recalculation of all routing tables of autonomous system and increases an additional
volume traffic.
4.Inertness – a huge number of connections and the short period of their existence
conditions are changing so rapidly in the network, that signaling protocols are not able to
track these changes. As a result, the control system receives are incorrect data and make
poor decisions, that further exacerbates the conflict..
5.Inconsistency – combined in one channel of “real-time” and not "real-time" traffic, make
the demands to maintenance a conflicting . Fulfillment of the requirements is imposed on
the qualities of service (QoS) of a increase computational loads, reduce the reliability and
the infallibility of operations and are the target of destructive actions.

33. 34 IPv17| 08 June 2015 IPv17
What does IPv17 mean?
IPv4/6 (04/06) technology
● 0 — method of transfer TCP | UDP | SCTP etc.
● 4 — unique 32-bit IP addressing
● 6 — unique 128-bit IP addressing
IPv17 technology
● 1 — (hardware) method of transfer only U-TP | D-TP
● 7 — integrated 64+32 bit (all) addressing

34. 35 IPv17| 08 June 2015 IPv17
IPv4 vs. IPv6 vs. IPv17
IPv4 IPv6 IPv17
Deployed 1981 1999 2015
Address Size 32 128 64
Capable of Addresses 232 = ~4,294,967,296 2128 264
Format decimal hexadecimal decimal
Address view 192.149.252.76 3FFE:F200:0234:AB00:0123:4567:8901:ABCD 65535:149:252:76
Prefix Yes Yes No
Mobil connection forward forward direct
Address transfer tunnel tunnel direct
URI search DNS DNS Route table
Identification service External External Internal
IP assignment By network By network By user
Network Topology static static dynamic
How to ping ping XXX.XXX.XXX.XXX ping6 3ffe::ab00:1:123
ping17 XXXXX:XXXXX:XXXXX:XXXXX
ping17 name | alias

35. 37 IPv17| 08 June 2015 IPv17
Basic principles
IPv17 technology is based on the principles of self-organization of
the systems.
● Self-Engineering Traffic — traffic maintenance in each network
node is on-demand network application.
● Self-Routing — establishing a transmission path without routing
protocols based on the table non-associative method .
● Broadband on Demand — assignation and maintenance of
bandwidth on demand provides a mechanism for transmission of
information.
● All-address space — maintaining of all addressing systems by
mechanism for transmission of information.
● Non-Anonymous — confirming the address of an entity,
multifactorial identification and addresses protection from
change.

36. 38 IPv17| 08 June 2015 IPv17
Self-Engineering Traffic
Self-Engineering Traffic — each network node independently serves a
requirement of network applications.
1. The new mechanism of transfer of information flows is based on the
dynamic time multiplexing method with modified sequence of a heading
and a body of the block. This method enables to stop the transfer of a
block in the arbitrary place and save the integrity of its transferred part.
As a result the priority transmission of blocks changes into transmission
with a guaranteed delay.
2. The control of delays at the cyclical transmission allows to combine the
traffics of real time and the traffics which are not critical to time delays.
3. The saving of a block heading prevents the unauthorized change of an
address of a dispatcher and a recipient in the process of the transfer
that excludes the possibility of the substitution of a dispatcher address.
Block Data != Packet

37. 39 IPv17| 08 June 2015 IPv17
Self-Routing
Self-Routing — routing method with unrelated tables.
1. It is based on the table non-associative method of route determining (without routing
protocols).
2. Dynamically configurable routing system.
3. Absence of routing protocols.
4. Absence of access to routing tables, which excludes the possibility of organization to
destructive actions on network.
5. Energy efficiency (0,3 W/Gbps).
The method of associative routing is capable to service five types
of communication networks, in particular:
1. Fixed Networks: - communication units have constant and invariable connections, and terminals remain
static during a session;
2. Mobile Networks: - communication units have constant connections and invariable connections and
terminals can change their location during a session;
3. Ad-hoc Networks: - communication units and terminals can change their location during a session;
4. Multicast Networks: - communication units have constant connections and invariable connections and
terminals remaining immobile can switch in or out of any session circulating in a network.
5. Networks of multipath communication: - communication units have constant and invariable
connections and two and more terminals can establish multiple sessions to increase either reliability
(authenticity) or transmission capacity of a communication channel.

38. 40 IPv17| 08 June 2015 IPv17
Self-Routing
Self-Routing — routing method with unrelated tables
Routing
table
Routing
table
Routing protocol
no identity no identity
O (N2) → O (n)
N – number of routers in AS n – number of routers neighbors in AS
AS [0..32]b Personal Adders
[0..127]B
Global Label Flow
[0..64]b
Bit Rate N port
aaa IPv04 | IPv06 xxx 8,76Mbps 0
aaa IMEI | IMSI (E.164) xxx 120Mbps 1
aaa URL (name | alias) xxx 32Mpbs 2
Routing table

39. 41 IPv17| 08 June 2015 IPv17
Broadband on Demand
Broadband on Demand – the mechanism of the transfer of
information flows implements allocation and maintenance of a
bandwidth on demand.
1. Each information flow is serviced.
2. Network connection
● allocates bandwidth,
● guarantees delay, and
● normalizes delay fluctuation
for each traffic

40. 42 IPv17| 08 June 2015 IPv17
All-address space
All-address space:
● Maintenance of all addressing systems.
1. Number, Name, Alias are used in the routing equally.
2. Four-factor registration.
3. To unite all addressing systems.
Network ID (Number, Name, Alias)
Name (0..127)B
Number (0..7)B
0 63
255
128
127
8
0..7
Alias (0..119)B
The structure of Network ID: Number, Name, Alias – 256 bytes
Type
Type
Type

41. 43 IPv17| 08 June 2015 IPv17
All-address space
Combining all the existing
address spaces will preserve
the pattern of distribution of
the existing addresses on
existing networks.
Closed area.
● Dialing a number in this area requires specialized
terminals.
● The network prohibits entering of these numbers
to the network.
Number Type of numbering system
0 State structures
1 Bank network
2
0 MPEG (PES)
1 ATM
2 FR (Frame Relay)
3 Channel number (TDM)
4 IPv4
5 FC (Fiber Channel)
6 RPR (Resilient packet ring)
7 (G)MPLS
3 Ethernet + VLAN
4 E.164 (inherited systems)
5 X.121 (inherited systems)
6 IPv6
7
0 Personal numbers of IPv17
1 Broadcasting numbers of IPv17
2 Reserve
3 Area of numbers for monitoring IPv17 network

42. 44 IPv17| 08 June 2015 IPv17
Non-Anonymous
Non-Anonymous — confirming a network address of the object,
multifactorial identification and addresses protection from
change.
• The Network ID consists of Number, Name, Alias and requires 256 bytes of storage in
the form of a plastic card, USIM, ROM or some other device.
• The Network ID Number and Name are assigned to a network object, and
• Alias is selected by a user independently.
• The combination of the processing of Name and Alias when establishing the route
provides balance the principles of freedom and responsibility in the network.
• While a connection is establishing Numbers, Names, Alias are used as equal elements
of the routing process.
• To log on user has to register a Network ID in the switching system. The registration is
carrying out with multi factor identification procedure (up to 4).
• The number of factors used in the registration depends on the type of information
flow.

43. 45 IPv17| 08 June 2015 IPv17
Info space visualization
Global Catalog
1. Global info space visualization
2. Personal and global info space synchronization.
Another method of info search.

44. 46 IPv17| 08 June 2015 IPv17
UDTP — transport protocol
udtp (Up/Down Transport Protocol) uses:
a)Network ID — NetID
b)Transfer method — NetRDMA
c) and QoS method — BR&D

45. 47 IPv17| 08 June 2015 IPv17
Phase 1 2 3 4
Phase name Protocol UDTP Switching router NetID Global Catalog
Key benefits
• Performance
• Efficacy
• QoS
• Security
 Power (2:..10:)
 Performance (7x)
 Stable
 Security
Method of assigning
addresses
• Coherence
• Availability
• Inclusiveness
• Everything
Target maximum spread new equipment address space Information space
Segmentation
• Application
• Middleware
• System
• SoC
• Fixed network
• Mobil network
• Ad-Hoc network
• Broadcast network
• User name, alias
• Machine number,
alias
• Service name
• B2B, B2C,
• C2C,
• G2C, G2B, G2G,
• M2M, M2C.
Modifications • on port (TCP,UDP)
• no dhcp
• no Radius, Diameter
• no overload
• Exchange DNS
• Change Billing
• Exchange search
information's
Protocol stack
Compatibility and deployment

46. 48 IPv17| 08 June 2015 IPv17
IPv17 over IPv4

47. 49 IPv17| 08 June 2015 IPv17
IPv17 over IPv6

48. 50 IPv17| 08 June 2015 IPv17
IPv17 over 802.3 physical level
1st stage:
Connection
2nd stage:
Transmission
(first packet)
Nst stage:
Transmission
(second or Nst packet)

49. 51 IPv17| 08 June 2015 IPv17
Security and availability
Security of IPv17 technology is based on:
● Authenticity of user NetID;
● NetID protection during the information exchange;
● Equitable route set up using user or service NetID.
Availability of IPv17 technology infrastructure is achieved by:
● network reliability increase because of changes self-adaptation
in network topology (no TMS);
● network stability increase as a resistance to failures and
malfunctions because of equipment self-organization (no SMNP);
● network performance improvement in case of heterogeneous
network users traffic with the specified quality because of no
emulation mode for transmission service (no tunnel).

50. 52 IPv17| 08 June 2015 IPv17
Computing paradigm
IPv17 technology uses:
● reducing computational costs to handle traffic up 0,1 Cbps*;
● minimizing switching kernel-user context at processing traffic
(Zero-copy);
● combining transmission: file – stream – message;
*Cbps - Commands on bit per second

51. 53 IPv17| 08 June 2015 IPv17
Application support
IPv17 network technology provides the following according to the
Application demand:
● support for existing network applications;
● application delivery passband with guaranteed latency and
normalized latency fluctuation;
● no traffic interference;
● establishing an equitable route according to the user address
(number, name or alias);
● routing by user number, or name, or alias;
● establishing single- and multipoint connections and
combinations;
● establishing symmetrical and asymmetrical connections for fixed
and mobile routes;
● routing and resource allocation without routing and signal
protocols.

52. 54 IPv17| 08 June 2015 IPv17
Network monitoring
IPv17 network technology is based on the principles of self-
organizing system, eliminates management tools and configuration
elements of the network infrastructure, and implements
functionality for status monitoring (RMON) of the network
infrastructure only.
QoS is not a function of network management (IPv17).

53. 55 IPv17| 08 June 2015 IPv17
Impact to the costs
Retrenchment of costs to:
● network equipment,
● management system,
● software update,
● operational personnel training,
● operational personnel,
● operational equipment,
That reduces the overall total cost of
ownership of the new network
technology in 7-8 times in comparison
with modern network technologies.
Equipment costs
Soft
70%
Hard
30%
Soft
5%
Hard
25%
Valuation
changes
Soft
15%
Hard
85%
Total valuation
changes 70%

54. 56 IPv17| 08 June 2015 IPv17
Impact to the costs
Along with operating costs decreasing, it provides:
1. network stability improving,
equipment is completely “transparent” for users, that considerably
complicates making
a) intentional or b) random illegal actions from the users.
2. network reliability improving,
since it is possible to send traffic with partially faulty equipment.
3. network credibility improving,
in case of equipment failure, dynamic reconfiguration of the traffic
directions is carried out.
4. network performance improving,
due to eliminating the emulation mode (additional services) while the
diverse traffic transferring.

55. 57 IPv17| 08 June 2015 IPv17
Products
Server and client for file system synchronization (Linux, Windows,
OS X):
Sync17 server is an element of a cloud or CDN, that is designed to
synchronize file systems of an arbitrary scale.
Competitive advantages:
● 5-9x effective transmission speed increase,
● processor computational load reduction.
Examples:
● from 1M to 8M synced files increase per day
● from 100 up to 500 increase of distributed files in a CDN per day
● 10GB/100GB/1TB/TB Databases synchronization

56. 58 IPv17| 08 June 2015 IPv17
Products
Replic17 database replication server is an element of DB, designed
to synchronize database files of an arbitrary scale systems.
Business model: integration services. Intensive of use depending
price. Box solution.

57. 59 IPv17| 08 June 2015 IPv17
Products
Mob17 is Mobile communication server for cloud systems:
Mobile communication server is a cloud system infrastructure element, that
is intended to generate interaction among virtual machines. It is a step of
the transport protocol development into the communication infrastructure.
Advantages:
● It creates possibilities for mobile movement of virtual machines inside
cloud service.
● It solves a variety of problems with the circadian changes in the structures
of the service in the cloud.
Business model: integration services. Quantity of VM depending price.

58. 60 IPv17| 08 June 2015 IPv17
Products
DBus server is an infrastructure element of a cluster system,
intended to generate interaction between virtual services and
facilities as a part of a supercomputer. It is a step of the transport
protocol development into the communication infrastructure.
Business model: integration services. Quantity of supported
processes and services depending price.

59. 61 IPv17| 08 June 2015 IPv17
Products for IoT
Servers and clients (Linux, OS RT, QNX, …):
Server and client are an element of machine-to-machine data exchange system. It is
designed for numerous and different aspect of the field of use in M2M structures for
telemetry, service, control and other data exchange in real-time.
Advantages:
● significant power consumption reduction,
● effective transmission speed increase,
● data transferring protection level increase.
Business model: integration and support service.

60. 63 IPv17| 08 June 2015 IPv17
Analogue
Fujitsu key features of the new technology are as follows:
1. New protocol improves throughput and latency in low-quality communications
environments.
2. Communications bandwidth control technology using real-time measurement of
available network bandwidth.
3. Technology for accelerating existing TCP applications without any modifications.
Results: use of the new technology is expected to speed up the performance of a wide range of communications
applications employing international communication lines and wireless networks which are anticipated to become
widely used more and more. For instance, the technology can help speed up web browsing and file download speeds in
mobile communications environments where there is deterioration due to building obstructions or movement. In
addition, the technology can improve data transfer speeds between datacenters in Japan and the US. It is also
expected to help improve the usability of virtual desktops when accessing a virtual desktop located on a remote server
using a low-quality communications environment.

61. 64 IPv17| 08 June 2015 IPv17
Conclusion
IPv17 technology creates a network infrastructure,
that will be:
● Stable,
● Reliable,
● Trouble-free,
● Performing,
● Effective,
● Compatible,
● Interoperable.
IPv17 technology can be the basis of IoE

62. Up/Down Transport Protocol (UDTP)
IPv17
Network technology

63. 66 IPv17| 08 June 2015 IPv17
Protocol stack phase 1
Physical Link
Radio Wire Fiber
Data Link Layer
Wi-Fi - 802.11 Ethernet - 802.3
Network Layer
IPv4 IPv6
Transport Layer
TCP UDP SCTP
Application Layer
HTTP FTP POP3 IMAP
Data
File Stream Message
User
Transmit Receive
Transport Layer
TCP UDTP SCTP

64. 67 IPv17| 08 June 2015 IPv17
Protocol stack phase 2
Physical Link
Radio Wire Fiber
Data Link Layer
Wi-Fi - 802.11 Ethernet - 802.3
Network Layer
IPv4 IPv6
Transport Layer
TCP UDP SCTP
Application Layer
HTTP FTP POP3 IMAP
Data
File Stream Message
User
Transmit Receive
Data Link + Transport Layer
802.11 802.3 UDTP
Network Layer
IPv17

65. 68 IPv17| 08 June 2015 IPv17
SocketSocket
NIC NICInternet
Eth, 3G, 4G, Wi-Fi
L2 driverL2 driver
IPv4/6IPv4/6
WebSocketWebSocket
UDTPUDTP
Service
DB
WinSocket Socket Socket Socket
UDTP replaces TCP, UDP, SCTP
UDTP place and purpose

66. 70 IPv17| 08 June 2015 IPv17
UDTP advantages
Protocols comparison UDTP and TCP by ITU-T Y.1541 (12/2011)
B 𝑝 𝐔𝐃𝐓𝐏 ≅ min 𝐵𝑅,
𝐵𝑅
𝑅𝑇𝑇 ∗ (1 + 80𝑝)
B 𝑝 𝐓𝐂𝐏 ≅ min
𝑊𝑚𝑎𝑥
𝑅𝑇𝑇
,
1
𝑅𝑇𝑇
2𝑏𝑝
3
+ 𝑇0𝑚𝑖𝑛(1,3
3𝑏𝑝
8
𝑝 1 + 32𝑝2
Effective bandwidth
Traffic behavior
TCP UDTP

67. 71 IPv17| 08 June 2015 IPv17
Advantages
Up/Down Transport Protocol (UDTP) advantages:
● Quality
• allocating a predetermined transfer rate, with guaranteed latency;
• support traffic transmission quality for mobile users;
• maintaining traffic transmission quality on a set of networks without control
subsystems.
● Security
• connection only between reliably identified participants of the information
exchange;
• protection from attacks such as DoS and DDoS;
• protection of addresses of information exchange participants from changes.
● Reliability
• the use of virtual routes.
● Efficiency
• reducing software update costs;
• reducing staff training costs;
• reducing service staff costs.

68. 72 IPv17| 08 June 2015 IPv17
Comparison
72
Data comparison from the scientific information sources:
1.New data transmission method for synchronizing file systems in the computing cloud of
Fujitsu Develops Labs. Press release date 29.01.2013;
2.OUIC specification (Quick UDP Internet Connections) Multiplexed stream transport over
UDP was announced by Google Inc., Announcement date 24.06.2013;
3.DataRunneR™ application purpose is CDN on fixed communication networks, was
announced by Panasas, Inc. Announcement date 11.07.2013;
4.Massachusetts Institute of Technology (MIT) press release about Remy project for the
application of intelligent control algorithm of TCP parameters. Press release date
19.07.2013.
Parameters Fujitsu* QUIC DataRunneR Remy UDTP
Bandwidth increase 30x - 1.16x 1.7x 42x
Latency reduction 6x - - 3x 7x
Computing performance -1 -3 -3 -2 +18x

69. Sync17
IPv17
Products
groundbreaking network technology

70. 74 IPv17| 08 June 2015 IPv17
File sync app
● Data traffic is too slow?
● Sync process runs too long?
● Bandwidth is too expensive?
We can help!
Sync17 is a new file sync app!

71. 75 IPv17| 08 June 2015 IPv17
File sync app
● Most Efficient
● Most Reliable
● Easy to scale
● Easy to integrate
Potential Use Cases
● File system Sync app
● DB Replication app
● Backup app
● Streaming app
● Cloud disk
Architecture
● IoE ready
Why Sync17

72. 76 IPv17| 08 June 2015 IPv17
Business value
With Sync17, you can
solve your data transfer
challenges while reducing
● Costs
● Time
and increasing
● Quality
● Security
● Reliability
● Efficiency
Benefits
● 17x faster traffic
● 17x increase of data volume
● 8x reduction of delivery time
● Reduce operational expenses by 20%
● 5x reduction of power consumption

73. 77 IPv17| 08 June 2015 IPv17
Business case
Current Required
CommVault
Simpana
Arcserve UDP Sync17
Number of clients 800 1,200 1,050 1,050 1,300
Synced files per day M 1 7 6 6 9
Bandwidth Gbps 4 50 40 40 4
Bandwidth Cost per 1 Gbps $K 2.5 15 12 12 2.5
Bandwidth Cost per month $K 10 750 480 480 10
Synced TB per day 2.2 15.4 13.2 13.3 19.8
Cost per 1 TB $K 5 3.8 6
Synced Cost per day $K 66 50.5 118.8
Synced Cost per month +
Bandwidth Cost per month
$M 0.01 2.46 1.99 3.57
Total Cost $M 0.12 29.52 23.94 42.89
Revenue per client per
month
$K 10 10 10 10
Revenue per year $M 96 126 126 156
Gross profit $M 95.88 96.48 102.06 113.11
Gross profit Increase % 1% 6% 18%
Company: DataLine
Period: 12 months

74. 78 IPv17| 08 June 2015 IPv17
Contacts
Vasily Prosin
CEO
vasily.prosin@gmail.com
+7(926)232-2655
Sync17

75. groundbreaking network technology
IPv17
Teaser

76. 80 IPv17| 08 June 2015 IPv17
With IPv17, you can solve your
data transfer challenges while
reducing:
● Costs
● Time
and increasing:
● Quality
● Security
● Reliability
● Efficiency
We can help you transmit data around
the world 17 times faster!IPv17
Sergey Valov
CTO
Co-founder
s.valov@IPv17.com
+7(985)430-6347
Vasily Prosin
CEO
Co-founder
vasily.prosin@gmail.com
+7(926)232-2655
IPv17 does:
● Use new principle of packet creation
● Use new error protection algorithm
● Use new error recovery algorithm
● Transfer rate control
● Connection control
It works without:
● Compression
● Deduplication
● Bundling small files
● Multi-thread service
groundbreaking network technology
Product: Technology based software (i.e. file sync app).
Licensing, installation and integration service, support and update.
Status: prototype has been tested.