Overview of the list of technological platforms suggested affirming by Russian Government commission on high technologies and innovations

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1

Overview of the list of technological platforms suggested affirming
by Russian Government commission on high technologies and
innovations



MEDICAL AND BIO
-
TECHNOLOGIES

2

1.

Technological platform “Medicine of the future”

2

2. Bio
-
industry and Bio
-
resources


BioTech2030

16

3.
Bioenergy

20

4.

National Software Platform

22

5.
National

HPC Technology Platform»

27

PHOTONIC

30

6. Innovative laser, optical and optoelectronic technologies


photonics

30

7.

Russian LED Technology Development

40

8. Air

mobility and aviation technologies

44

9. N
ational space technological platform

50

10. National information satellite system

53

11. Closed nuclear
-
fuel cycle with fast reactors

56

12.

Controlled Fusion Technological Platform (CFTP)

57

13.

Radiation technologies

59

ENERGY

63

14. Intelligent Pow
er System of Russia

63

15. Enviromentally safe thermal power of high efficiency

70

16. Advanced technologies of renewable power engineering

74

17. Small
-
Scale Distributed Power Generation

76

TRANSPORT TECHNOLOGY

79

18. Application of innovative technologies to improve construction efficiency,

2

main
tenance and safety of roads and railways

79

19. High
-
speed intellectual railway transport

82

20. N
ew polymer composite and technologies

83

21. Materials and technologies of the metallurg
y

89

RESEARCHINNG OF NATU
RAL RESOURCES? OIL A
ND GAS PROCESSING

94

22. Technology Platform on Solid Minerals

94

23.
P
roduction and usage of hydrocarbon resources

100

24. Deep Conversion of Hydrocarbon Resources (DCHR)

101

25.

T
echnologies of mechatronics
,

embedded control systems radio
-
frequency
identification and robot
-
bulding

106

26. Microwave technologies

108

27. Ocean Development

112


M
EDICAL AND BIO
-
TECHNOLOGIES


1.

Technological platform “Medicine of the future”


The aim of the technological platform


To create

a segment of medicine of the future which is based on the complex of the
“breakthrough” technologies determining the possibility of appearance of new markets of high
-
tech products and services as well as rapid distribution of advanced technologies in medi
cal and
pharmaceutical sectors.


The purpose of the technological platform


1.

To facilitate contacts and enable effective interaction of stakeholders in the medical
and pharmaceutical sectors including businesses, scientists and state institutions.

2.

To
develop the long
-
term strategic vision of the development of medicine as a
sector, including scientific, innovation and production programs.

3. To concentrate intellectual, financial and administrative efforts on creation and
commercialization of products
and services which would be competitive on internal and external
labor markets.

4. To optimize the state regulation of scientific and innovation processes, to standardize
technological regulations and procedures, to improve customs regulations in the spher
e of bio
-
medicine with the view
to facilitating

the

introduction of products

onto

the market.

5. To harmonize TP “Medicine of the future” with the TP of the European Union, to form
joint space with the TP of the CIS.

6. To modernize the

medical

environment

and

educational

space
, to create
conditions

for
implementation of new

medical

products and

services in

practical

health care.

7. To bring

scientific

knowledge into the area of

new

breakthrough

technologies for

3

medicine

which will ensure
the de
crease of

mortality,

morbidity
, and
increase

life expectancy
and quality of life as well as
the
population growth
in Russia.



Objectives of the technological platform


The statement of

goals, objectives and

planned results of the
technological

platform

"
Medicine
of the Future

(
the upper part
of the cell

-

a goal,

under
the lower

dotted line



the
result
)


Goals

Short
-
term

(
nearest year
)

Medium
-
term

(2
-
4
years
)

Long
-
term

(5
-
8
years
)

Scientific
and
technologic
al

Analysis of

the
existing

scientific and

technical
resources

and the

development of

the
Strategic

Research Program

(SRP).

Elaboration

of

Roadmaps

for

development

(
RD
)
of
technologies and products in the
following directions:

-
innovative pharmaceutical products;

-
multicomponent biocomposite
medical materials;

-
devices for diagnostics and
treatment;

-
diagnostic and therapeutic
systems on the basis of
molecular and cellular targets.

Ensure that key
technologies and major
product groups are
competitive on the world
markets
.

Strategic

program
of
research in the sphere
of bio
-
medicine.


Road

maps

of

key

technologies

and

product

groups
.

The innovativeness of
key technologies and
major food groups are
comparable to those
existing in the world.

Industrial

Analysis

of

the

existing
industrial base of
medical and
pharmaceutical
products of the Russian
Federation and the
development of
proposals on its
development until
2020.


Creation of new, and
technological modernization of
the already existing industrial as
well as experi
mental and
industrial (pilot) resources
including attracted foreign
technologies and investments.


Putting into operation the
pharmaceutical industries
and production of
medical equipment and
medical materials.


The strategy for
development of
industrial base of
medical and
pharmaceutical
products of the Russian
Federation until 2020.


Adoption of legislative
initiatives stimulating
investments in medical and
pharmaceutical sectors of
Russia.

Realization of the f
irst stage of
development strategy of
industrial base.


Manufacturing of basic
nomenclature of medical
products in the amounts
corresponding to the
planned demand.

Realization of the second
stage of development
strategy of the industrial

base.





Analysis

of

the

needs

of

biomedical

and

pharmaceutical

complexes

for

Modernization of medical
environment for adoption of new
medical technologies.

Development of educational
Modernization of post
-
graduate training of
specialists for biomedical
and pharmaceutical

4

Educational

specialists
.


standards and curricula on the
basis of research works using the
Forsyth instrument on personnel
demands.

complexes.


Projections for
demand
of specialists until
2020.


Introduction of new educational
standards necessary for
development of bio
-
medical and
pharmaceutical complexes
(management, new technological
directions, etc.).


Meeting the demand for
highly qualified
scientific, techni
cal and
production personnel in
biomedical and
pharmaceutical sectors.

Market

Analysis of the market
in biomedical and
pharmaceutical sectors
in Russia and abroad.


Creating demand, including
demand from the government,
for production of domestic
biomedical and pharmaceutical
complexes.

Perfection of quality control
mechanisms and safety of
medical products which are
produced on the territory of the
Russian Federatio
n and imported
from abroad.

Ensuring that a great part
of demand for
biomedical and
pharmaceutical products
on the Russian and CIS
markets is met by
domestic producers.

Projection for
development of
markets of biomedical
and pharmaceutical
products in the Russian
Federation and
worldwide until 2020.

Adoption of legislative
initiatives on stimulating the
demand for products of
biomedical and pharmaceutical
complexes.



S
ignificant increase in
the share of domestic
products on key
commodity groups.


Social

Structure of
employment in
biomedical and
pharmaceutical sectors
in the Russian
Federation and
projection of
development until
2020.

A program for attraction and
retaining personnel in
biomedical and pharmaceutical
complexes.


Creation of work places
with advanced
professional culture and
competitive wages in
biomedical and
pharmaceutical sectors.


Manpower
development program
until 2020 which is
linked to the
development strategy
of manufacturing base
of medical and
pharmaceutical
products of the Russian
Federation until 2020.

Creating the necessary number
of work places in the framework
of the fir
st stage of realization of
development strategy of
manufacturing base of medical
and pharmaceutical products of
the Russian Federation until
2020.


Creating the necessary
number of work places
meeting the above
mentioned conditions.




5

Brief description of the markets which are being developed in the framework of the
technological platform for which the technologies are intended


Based on the goals and objectives of the technological platform “Medicine of the future”,
technologies, whic
h are being developed in the framework of the given technological platform,
will have an impact, as a minimum, on the following segments of the markets:

1.

The market of innovative pharmaceutical medicines on the basis of biotechnologies;

2.

The market of bioco
mposite materials for medicine;

3.

The market of medical appliances and equipment;

4.

The market of test systems for diagnostics.


As part of the market of innovative pharmaceutical medicines on the basis of
biotechnologies
, the niche strategy is realized by the

technological platform “Medicine of the
future” on the following positions:

vaccines (DNA
-
vaccines);

hormonal medicines;

clotting factors;

medicines on the basis of cytokines;

monoclonal antibodies;

medications for demographically
-
significant diseases;

antiseptics.

At the end of 2010, the total demand for innovative pharmaceutical medicines on the
basis of biotechnologies in the Russian Federation, which fall under the technological platform
“Medicine of the future”, is estimated as 2,3 billion rubles.
By the end of 2020, the growth in
demand for the above mentioned medicines is expected to reach the amount of 140 billion rubles
(increase of more than 60 times).

As part of the market of biocomposite materials for medicine
, the niche strategy is
realized

by the technological platform “Medicine of the future” in the following areas:


biocomposite constructions for identifying diagnostically relevant proteins and separation
of cells;

new biomaterials for tissue and bone implantation;

bandages with antibacte
rial properties.

At the end of 2010, the total demand for biocomposite materials for medicine in the
Russian Federation, which fall under the technological platform “Medicine of the future”, is
estimated as more than 30 billion rubles. The growth of the g
iven segment of the market is
expected by 2020, exceeding 150 billion rubles (increase of more than 5 times).

As part of the market of medical appliances and equipment
, the niche strategy is
realized by the technological platform “Medicine of the future” i
n the following areas:


medical appliances for diagnostics of treatment;

medical appliances and equipment;

medical devices made of textile, glass and polymers.

At the end of 2010, the total demand for medical appliances and equipment in the
Russian Federa
tion, which fall under the technological platform “Medicine of the future”, is
estimated as exceeding 70 billion rubles. The growth of the given segment of the market is
expected by 2020, exceeding the level of 350 billion rubles (increase of more than 5 t
imes).

As part of the market of test systems for diagnostics
, the niche strategy is realized by
the technological platform “Medicine of the future” in the following areas:


molecular diagnostics;

immunodiagnostics;

other diagnostics in vitro.

immunodiagnos
tics;


6

At the end of 2010, the total demand for test systems for diagnostics in the Russian
Federation, which fall under the technological platform “Medicine of the future”, is estimated as
23 billion rubles. The growth of demand for test systems for
diagnostics is expected by 2020 in
the Russian Federation up to 45 billion rubles (twice as much). At the same time, the
development of technologies, which fall under the technological platform “Medicine of the
future”, will allow to enlarge the share of t
est systems for diagnostics of Russian production
from 6 billion rubles in 2010 up to 36 billion rubles by 2020 (6 times more).

The overall demand for the segments of markets, which are being impacted by the
technologies, developed in the framework of the
technological platform “Medicine of the
future”, is estimated on the level of 150 billion rubles by the end of 2010. The demand will grow
up to 700 billion rubles (4 times more) by 2020.



Description of the main activities on creation and support of the t
echnological
platf
orm activity for the next year




Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

1.




























Establishment
of the
technological
platform
“Medicine of
the future”
(further
referred to as
TP), formation
of mechanisms
of the TP
functioning
and support of
its organization
development.

















1.1.

Involvement of
the maximum
wide range of
interested
parties into the
participation in
the TP,
including:




1.1.1

Conduct of not
less than four
TP information
days to attract
potentially
interested
parties, which
were not
included in the
TP on the initial
stages of its
development, to
take part in the
TP.

Registration sheet
of participants of
the information
days

Pre
sentations

of

reports


TP executive
directorate

Quarterly
2011

1.1.2

Organization of
the TP Internet
forum as well as
the TP web site
to attract
potentially
interested
parties, which
were not
included in the
TP on the initial
stages of its
development, to
participate in
the TP.

Internet forum and
web site

Working group
o
n information
support

February,
May 2011


1.2

Creation within
WG on formation
Executive
April 2011


7



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines


















































































the TP of a
working group
(WG) on the
development of
mechanisms of
the TP
functioning as
well as support
of its
organization
development.

of mechanisms of
the TP functioning
and support of its
organization
development.

directorate


1.3

Development
and realization
of management
decisions,
ensuring the
TP functioning,
including
settlement of
interrelati
ons
among the
participants,
including:




1.3.1

Detection and
systematization
of factors
contributing to
the TP
functioning.
Detection and
systematization
of obstacles and
restrictions,
risks and threats
preventing the
TP functioning
(depth
interviews and
focus groups
with
representatives
of the TP
part
icipants).

Policy notes on
the research
results
(preparation for
the expert
discussion on the
practice of the TP
formation and
functioning).

WG on
formation of
mechanisms of
the TP
functioning
and support of
its organization
development.

May 2011

1.3.2

Elaboration and
signing of the
cooperation
agreement
between the TP
participants.

Cooperation
agreement
between the TP
participants.

Steering
committee,
WG on
formation of
mechanisms of
the TP
functioning
and support of
its organization
developmen
t .

May 2011

1.4

Formation of
the TP
organization
structure,




8



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines























2.











































Foresight in the
sphere of
biomedical
technologies
which ensures
development
and market
promotion of
innovation
medicines,
medical
biocomposite
materials,
medical
devices and
systems for
diagnostics and
treatment on
the basis of
post
-
geno
me
and cell
targets. I
-
III
quarter of
2011.

including:

1.4.1

Design of the
TP organization
structure
(without
formation of the
legal entity)
ensuring the
necessary
conditions for
realization of
interaction
between
enterprises,
scientific and
educational
organizations;
as well as
elaboration of
proposals aimed
at imp
rovement
of issue
settlement in
scientific
-
technological
and innovation
spheres.

Organization
structure approved
by the constitutive
conference.

Steering
committee.
WG on
formation of
mechanisms of
the TP
functioning
and support of
its organization
development.

March 2011

1.4.2

Conduct of the
constitutive
conference and
elections in the
TP controls.

TP
institutionalization

Constitutive
conference

May 2011

1.4.3

Elaboration of
the TP
constituent
documents

Elaborated
constituent
documents

Steering
committee.
WG on
formation of
mechanisms of
the TP
functioning
and support of
its organization
development

May 2011

1.5

Determination
of possible
sources of
funding of the
TP functioning,
including:




1.5.1

Elaboration of
proposals on the
use of various
mechanisms of
state financial
support of
scientific
-
technological
List of proposals
on the use of
various
mechanisms of
state financi
al
support of
scientific
-
technological
WG on
development of
the Program of
advanced
technology
implementation
(PATI)

April 2011
.


9



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines


3.

















4.




















Development
and start of
pilot
realization of
the strategic
research
program
providing for
determination
of medium
-

and long
-
term
priorities in
carrying out
R&
D, as well
as forming
mechanisms of
scientific
-
industrial
cooperation
(further
referred to as
SIC).














Development
and start of
pilot
development
(target
programs,
institutes of
development,
foundations
etc.)

development

1.5.2

Study of
possibilities of
agreement on
the TP strategic
documents and
business
development
programs.

Plan of activities
on agreement on
the TP strategic
documents and
business
development
programs.

WG on
development
and realization
of the Strategic
research
program

May 2011

1.5.3

Conduct of a
series of
discussions
(seminars) with
the participation
of

business
representatives
and authorities,
aimed at
agreeing on the
most effective
financing
mechanisms of
the TP
functioning,
including the
ones within
public
-
private
partnership.

Minutes of
meetings and
proposals.
Program of the TP
business
developmen
t.
Replication of the
most effective
mechanisms of
public
-
private
partnership in the
sphere of research
and development.

Steering

committee
,
executive

directorate
.

April
-
June
2011

1.6

Development
and realization
of the company
plan on the TP
promotion in
Russia (among
the authorities,
in the business
community)
and abroad (the
EU, European
technological
platforms,
countries


participants of
the CIS,
business
community)




1.7

Elaboration of
proposals on
formation of
the normative
-
legal base of
Proposals on
formation of the
normative
-
legal
base for the TP
WG on
preparation of
proposals
aimed at
improvement
October
2011


10



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

realization of
the program of
advanced
technology
implementation
in the sphere
determining
various
mechanisms
a
nd sources of
funding, as
well as
obligations of
the TP
participants
(further
referred to as
PATI).

the TP
functioning,
including:


functioning.

of dispute
settlement in
sc
ientific
-
technical and
innovation
spheres.

1.7.1

Analysis

of

the

existing

legal

regulations of

scientific
-
technical

and

innovation

activity

for

detecting

provisions

preventing

or

restricting

the

TP

functioning

as

well

as

possibilities

of

its

improvement
.

Systematization
and analysis of
remarks, ideas and
proposals of
experts and
preparation of
proposals aimed at
improvement of
scientific
-
technical and
innovation
activity
regulation.

Experts. WG
on preparation
of proposals
aimed at
improvement
of regulation in
scientific
-
technical and
innovation
spheres.

May 2011

1.7.2

Conduct of
expect
discussions on
prospects of
formation of
the normative
-
legal base of
the TP
functioning
with th
e
participation of
the leading
experts in the
sphere of
scientific
-
technical and
innovation
policy as well
as
representatives
of the federal
executive
bodies.

Preparation of
proposals on
the legal basis
of the TP
functioning.

Minutes of
meetings and a lis
t
of proposals.

TP working
group on
preparation of
proposals
aimed at
improvement
of regulation in
scientific
-
technical and
innovation
spheres.

September
2011

1.8

Elaboration of
proposals on
formation of
coordination
mechanisms of
the TP activity
with other
Proposals on
formation of
coordination
mechanisms of the
TP activity with
other
technological
Contact
working gr
oup
on interaction
with the TP.


October
2011


11



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

technological
platforms,
including:

platforms.

1.9

Creation within
the TP of a
working group
on long
-
term
scientific
-
technological
forecasting.

Formed working
group on
scientific
-
technological
forecasting.

Executive
directorate

April 2011

2.0

Attraction of
the leading
Russian and
foreign experts
in the sphere of
scientific
-
technological
and economic
development to
participation in
the TP
functioning.


WG on long
-
tern
technological
forecasting and
analytics.

During 2011

2.1

Analysis of
Russian and
foreign
strategic
documents
(foresights,
road maps,
strategies etc.)
determining
priorities and
aims of
development in
the sphere of
biomedicine.

Analytical report
containing
determination of
priorities and aims
of development in
t
he sphere of
biomedicine.

WG on long
-
tern
technological
forecasting and
analytics

June 2011

2.2

Determination
of long
-
term
priorities of
scientific
-
technological
development of
biomedicine,
including:




2.2.1

Formation of
the “Image of
the future”

of
this economics
sector in the
context of
social
-
economic
development on
the whole for
the long
-
term
perspective
Development of
the Vision of this
economics sector
in the context of
social
-
economic
development on
the whole for the
long
-
te
rm
perspective.

WG on long
-
tern
technological
forecasting and
analytics

October
2011


12



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

(focus groups).

2.2.2.

Development of
strategic aims of
the TP
development as
well as long
-
term priorities.

Strategic aims of
the TP for the
Program of the
strategic TP
development.

WG on long
-
tern
technological
forecasting and
analytics

November
2011

2.3

Formation of a
road map on
achievement of
the TP
objectives
(further
referred to as
RM),
including:


Executive
committee.
Expert group
on the Road
map formation

December
2011

2.3.1

Conduct of in
-
depth
interviews with
members of the
expert group.
Formation of
the RM project,
including visual
RM
presentation
reflecting
research
interconnections
as well as
intermediate
and end
products with
the targeted
strategic aims of
the TP
development.

Analytical report
on the research
containing
recommendations
on formation of
the RM for the TP
“Medicine of the
future”.
Recommendations
on strategies of
development and
implementation of
innovation
-
technological
decisions within
the TP.

Exp
ert group
on the RM
formation

June 2011

3.1

Creation within
the TP of a
working group
on SIC
development
and realization.

The working
group on SIC
development and
realization has
been formed.

Steering
committee

April 2011

3.1.1

Conduct of the
forum of the TP
participants for
discussion and
approval of
SIC.

SIC program
approved by the
participants.

WG on SIC
development
and realization.

December
2011

3.1.2

Development of
mechanisms of
public
-
private
partnership in
the sphere

of
research and
List of proposals
on the use of
various
mechanisms of
state financial
support of
WG on SIC
development
and realization.

September
2011


13



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

developments to
be realized
within the TP.

scientific
-
technological
development.

3.1.3

Elaboration of
proposals on the
use of results of
research and
developments
obtained abroad
within the TP.

Conduct of the
conference


WG on SIC
development
and realization.

September
2011

3.1.4

Launching of
SIC pilot
projects to
master SIC
realization
mechanisms.

Elaborated

projects

for

investments


WG on SIC
development
and realization.

In
accordance
with
requirements
of state
contracts or
agreements,
2011.

4.1

Creation within
the TP of a
working group
on development
and realization
of the Program
of advanced
technology
implementation
(PATI).

Formed working
group

Executive
directorate

June 2011

4.1.1

Specification of
the RM to form
subjects of the
TP projects on
advanced
technology
implementation.
Preparation of
the PATI
project and its
coordination by
the TP
participants.

The project of
advanced
technology
implementation.

WG on PATI
development
and
implementation

June 2011

4.1.2

Search for
business
partners and
choice of
production sites
for realization
of PATI pilot
projects.

Data
-
base of
production and
technological sites
for realization of
PATI pilot
projects.

WG on PATI
development
and
implementation

September
2011

4.1.3

Development of
mechanisms of
public
-
private
partnership on
implementation
of advanced
Minutes of expert
-
analytical
activities with the
participation of
state and bu
siness
on development of
WG on PATI
development
and
implementation

October
2011


14



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

technologies for
them to be
realized within
the TP.

mechanisms of
public
-
private
partnership in the
sphere of
advanced
technology
implementation
for them to be
realized within the
TP.

4.1.4

Elaboration of
proposals on
technological
borrowing from
abroad (import
of technologies)

Proposals on best
practices

WG on PATI
development
and realization

November
2011

4.1.5

Launching of
pilot projects of
PATI to master
mechanisms of
PATI
realization

Developed
projects for
investment
programs

WG on PATI
development
and realization

November
2011

5.














6.

Development
and start of
pilot
realization of
training
programs











Elaboration of
proposals
aimed at
improvement
of regulation in
the scientific
-
technological
sphere,
including the
following
parts:
specification of
the subjects of
R&D,
5.1

Creation within
the TP of a
working group
on education
and personnel
training

Formed

working

group


Executive
directorate

April 2011

5.1.1

Analysis of the
potential of
profile
universities

Data
-
base of
personnel
programs within
the priority TP
projects

WG on
education and
personnel
training

April 2011

5.1.2.

Foresight of
competences

Analytical report
on research.
Determination of
the level training
system. Proposals
for development
of new programs.

WG on
education and
personnel
training

August 2011

5.1.3.

Conduct of a
series of
discussions on
possibilities of
cooperation
between the
universities,
scientific
organizations
and
manufacturing
enterprises
within the
framework of
development
Development and
realization of

educational
programs,
formation of work
plans, teaching
methodologies for
concrete
disciplines.

WG on
education and
personnel
training

November
2011


15



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

supported by

the state;
improvement
of mechanisms
for the
stimulation of
innovation
activity;
improvement
of technical
regulation;
determination
of perspective
requirements to
quality
characteristics
of production
(services)
purchased for
state needs;
specification of

programs of
innovation
development of
big companies
with state
participation;
specification of
directions and
principles of
support of
scientific
-
technological
and innovation
development
by state
institutions;
improvement
of educational
standards;
determ
ination
of directions of
international
scientific
-
technological
cooperation.

and realization
of educational
programs.

6.1.

Creation within
the TP of a
working group
on preparation
of proposals
aimed at
improvement of
regu
lation in
scientific
-
technological
and innovation
spheres.

Formed working
group

Executive
directorate

April 2011
.

6.1.2.

Analysis of the
existing
regulations in
scientific
-
technological
and innovation
spheres to
identify the
provisions
preventing or
restricting the
TP functioning
as well as
possibilities of
its
improvement.

Analytical report,
preparation of
information
materials for
expert discussions
on improvement
of the regulations
in scientific
-
technological and
innovation
spheres with
participation of
the leading
experts in the field
of scientific
-
technological and
innov
ation
politics,
representatives of
the federal bodies
of executive
power.

WG on
elaboration of
proposals
aimed at
improvement
of regulation in
scientific
-
technological
and innovation
spheres.

September
2011

г.

6.1.3.

Conduct of the
expert
discussion
on
improvement of
regulations in
scientific
-
technological
and innovation
spheres with
participation of
the leading
experts in the
field of
scientific
-
technological
and innovation
politics,
representatives
of the federal
executive
Minutes of the
mee
tings

WG on
elaboration of
proposals
aimed at
improvement
of regulations
in scientific
-
technological
and innovation
spheres.

September
2011


16



Name of
activity



Ongoing works

Outcomes

Executors

Deadlines

bodies.

6.4.

Systematization
and analysis of
remarks , ideas
and proposals of
experts;
elaboration of
proposals aimed
at
improvement
of regulation in
scientific
-
technological
and innovation
spheres.

List of proposals
aimed at
improvement of
regulation in
scientific
-
technological and
innovation
spheres.

WG on
elaboration of
proposals
aimed at
improvement
of regulations
in s
cientific
-
technological
and innovation
spheres.

October
2011



2. Bio
-
industry and Bio
-
resources


BioTech2030


In 2010 Russian Government recognized a need for a new relationship between research
and business, including strengthening the innovation
system. Further impetus for development of
biotechnology has been given on the federal level by decision of the Governmental Committee
of High
-
Tech and Innovations to establish a broad set of national Technology Platforms (TP).
Initiated by the M.V.

Lomono
sov Moscow State University, a leading Russian research
university, and JSC “RT
-
Biotechprom”, a brunch of one of the largest national companies


Russian Technologies State Corporation, with an active assistance of the most prominent
national institutions
and businesses, the Russian Technology Platform “Bio
-
industry and Bio
-
resources


BioTech2030” has been founded in November 2010.


TP “BioTech2030” includes 3 sub
-
platforms: “Industrial Biotechnology”,
“Forestry” and
“Food for Life”

and embraces more than
140 participants 50% of which comprise big business
and SME’s. Its main goals and aims are:



Drafting, discussion and further adoption of the documents (Foresight, Strategic
Research Agenda, Road Map and Implementation Plan) defining the principal scientifi
c and
technical development of the Platform priorities areas;



Development of the concept towards bio
-
industry and bio
-
resource sustainable
growth and their interaction with other sectors of the national economy;



Integration of biotech knowledge and applica
tions into various sectors of the
economy;



Creation of new markets and developing areas traditional for the Russian
economy;



Transition to a new level of environmental standards in Russia;



Creation of new raw materials source (renewable biomass) for the
chemical and
allied industries, alternative to fossil hydrocarbons;



Creation of cheap and accessible material base for production of pharmaceutical
substances;


17



Complex processing of low
-
value food and non
-
renewable raw materials into
useful products with h
igh added value;



Integrating viewpoints and opinions of all the stakeholders: government, industry,
academia, regulatory authorities, users and consumers;



Creation of interaction network between experts in different fields of bio
-
industry
and bio
-
resources
, information sharing, dissemination and coordinated decision
-
making;



Monitoring of trends, analysis of market potential of technologies;



Cooperation with similar foreign entities in the EU and worldwide.


TP “BioTech2030” is emerging as a powerful instrum
ent for coordination of efforts in the
field of industrial biotechnology, forestry and food biotechnology, commercialization of
innovations and effective communication of all stakeholders in the Russian Federation.

It
will
create a solid basis for
sustainable development of biotechnology sector of the national economy;
however, a special attention is given to international contacts.


Among a number of on
-
going projects in the field of industrial biotechnology currently
implemented in Russia could be

mentioned just a few:



Pilot lingo
-
cellulosic bio
-
refinery;



A number of facilities for grain processing into bio
-
fuels and high
-
value added
products;



Introduction of modern environmentally friendly bio
-
catalytic technologies into
pulp and paper industry;



U
se of microalgae for bio
-
fuel production, etc.


The central goal of the
TP “BioTech2030”
is to create modern Bio
-
industry in the
Russian Federation, for contribution to GDP, comparable with world leading economies (up to
3%).


The main result of the establ
ishment and operation of TP should be to achieve
competitiveness of Russian biotechnological sector on the world market, develop and create new
technologies, products and services (see Appendix).


In the framework of
TP “BioTech2030”
with a view to the rat
ional and sustainable
industrial production and energy while reducing environmental impact production based on
renewable raw materials will be developed and organized:



Bio
-
reagents (enzymes, products of fine organic synthesis, and basic raw
materials for
manufacture of drug substances, feed additives, protein, amino acids, plant
protection and animal welfare, etc.).



Biomaterials (bio
-
plastics, monomers to polymers, chemistry, etc.).



Bio
-
fuels (bio
-
ethanol, biodiesel and bio
-
butanol).



Products for healthy f
ood and food ingredients.



Deep forest industry products.



New energy efficient and “green” biotechnological processes.



18

It is also anticipated that technology platform will have following socio
-
economic
performances:



Increase employment in rural areas.



Deve
lopment of the regions of Siberia, Far East, the European North and grant
regions.



Environmental issues including megacities, agro
-
industrial complex.



Diversification of exports.



Contribution to the food and drug safety.


Markets and sectors that are expec
ted to influence technology, developed under the
Technology Platform ”BioTech2030”


Sector of economy

Key Products

Current production
Technologies

New technologies that will
very likely that may appear in
the world in the next 10 years

Power and
Energy


Biofuels and oxygenators
(biodiesel, and biospirty
bioefiry, biogasoline)

Biogas

1 st generation on the basis of
food raw materials, and
household and agricultural
wastes

2 nd generation based on non
-
food raw materials
(lignocellulose complex) and
pho
tosynthetic technologies
(micro)

Pharmaceutics

Raw materials for the
production of substances of
innovative drugs

Traditional fermentation
processes

Bioreactors for immobilized
cells and application of
biocatalytic processes

Agricultural
sector

Amino acids (lysine,
methionine, tryptophan)

Probiotics and synbiotics

Feed additives

Fodder Vitamins

Feed enzymes

Preserving animal feed and
silage ferment

Biotech feed protein (feed
yeast)

Crop protection and plant
growth stimulation

Vaccines

Use

of natural strains, traditional
production.

The use of attenuated vaccine
strains of microorganisms and
viruses.

Implementing the concept of
"cell factory» (cell factory).

New producers with a
directional change in
metabolism.

M
olecular vaccines.

C
hemical
Industry

Intermediates for chemical
industry and organic
synthesis

Monomers

Enzymatic polymerization
(lipase
-
catalyzed synthesis
of polyesters, laccase
-
Traditional synthesis based on
refined petroleum products.
Fermentation of food raw
materials.

New biocatalytic technology.

New enzymes with improved
properties.

Creating a standard library of
metabolic pathways for the
constr
uction of new producers


19

catalyzed synthesis of
polyphenols)

Modification of synthetic
polymers (PET / lipase, PA
/
laccase, PAN / nitrilase)

Further reduction in the cost of
enzymes used in industry

Implementing the concept of
bio
-
refineries.

Production of
bioplastics

PHA, polylactides, co
-
polymers based on
alkanediols

Fermentation of food raw
materials

Go to the
disposal of non
-
food
raw materials and
photosynthetic processes.
Implementing the concept of
"cell factory"

Food

Enzymes

Functional Food Ingredients

Food additives (emulsifiers,
gelling agents)

Dietary Supplements

Flavors

Technological aids

Functi
onal foods, including
enriched, therapeutic foods

Products preventive
nutrition

Products specialized
purpose.

products with reduced fat

products with reduced sugar
content

products of organic
production

Vitamins, minerals

It is mainly used refinemen
t of
traditional products through the
fortification missing
components, or excessive
extraction of components

Production of complex food
supplements for a balanced
product.

Using enzymatic and bio
-
catalytic processes for removing
unwanted components
(e.g.,
saturated fatty acids)

New enzymes with improved
properties.

Expanding the resource
base through the use of
low
-
value raw materials of
vegetable and animal
origin

Industrial
Reagents

Reagents: oilfield

for mining

Pulp and Paper Industry

reagents for the production
of biofuels

Recycling

Traditional processes based on
food raw materials

Processes on the basis of
processing of lignocellulose
complex and photosynthetic
technologies

Forestry Sector

Forest monitoring system

Technology
terrestrial visual
monitoring and / or sampling.

Remote sensing using optics.

Instrumental technology ground
monitoring of forests in situ.

Information Technology for
remote sensing and monitoring

20

using optical and radar with
high
-
resolution

Forest p
lantations,
regeneration of forests

Service logging companies

Using traditional techniques such
as reforestation, improvement
programs, the use of vegetative
propagation techniques, the use
of biomarkers

Traditional technologies of
cutting, supply

The w
idespread use of
molecular markers and
genomics to improve the
properties of wood and fiber.

Use of non
-
timber forest
resources

Technology systems of wood
supply, improve the integration
of the various chains of the
forest sector of wood raw
material to
finished product

Environmental
protection

Biodegradants,

Technology of waste
disposal

Sensors

Using natural microbial
associations

Specialized sensors and detectors


Biotechnology
Equipment and
Services

Fermenters

Sensors

Valves

Software

Filtration Systems

Traditional capacitive equipment

New bioreactors for continuous
processes based on immobilized
producers.

New systems of separation and
purification of in situ



3.

Bioenergy

Platform mission

SECURING OF RUSSIAN

INNOVATION DEVELOPME
NT BY MEANS OF
INTERSECTORIAL AND I
NTERDSCIPLINARY APPR
OACHES FOR FORMATION

OF NEW SECTOR OF ENE
RGY PRODUCTION AND C
ONSUMPTION WITHOUT
CHANGING THE ENVIRON
MENTAL MATERIAL BALA
NCE

Main objectives and goals




Design
of development concept and Roadmap (forecast) for realization of
domestic bioenergetics concept, its integration with other sectors of domestic and foreign
economics, coordlegal regulation in the area of bioenergeticsination and long
-
term planning of
princ
iples and methods of interaction;



Development of strategy and research program in the area of bioenergetics
structured by the train


scientific
-
research works


experimental development


commercialization


pilot projects;



Creation of the mechanisms of

state, private and international support of scientific
programs (state programs, FCP, R&D programs of companies, the 7
th

framework program of EC,
programs of international scientific and technical cooperation);



Consolidation of efforts of the representati
ves of business, science, state and civil
society in determining the strategic demands of business and society on the creation of

21

prospective commercial technologies and equipment, new products and services in the area of
bioenergetics and other analogous
areas;



Stimulation of innovations, widening of scientific
-
technological cooperation and
formation of new partnerships, support of scientific and technical activity and processes for the
technological updating of the enterprises of bioenergetics and anal
ogous areas, considerable
growth on this basis of the competitiveness of energy, chemical and agricultural sectors of
economics;



Monitoring of bioenergetics state, analysis of market potential of bioenergetics
technologies, creation of a system of informa
tion exchange using the total set of modern
information technologies;



Development of personnel potential of bioenergetics sector, interaction and
support of scientific and educational centers, institutes of higher education, academic and branch
science, b
usiness;



Improvement of reference and legal regulation in the area of bioenergetics;
introduction of the projects of technological regulations, environmental standards etc.

Main directions of platform development



Technologies of permanent monitoring and f
orecasting of main directions of
bioenergetics development on the basis of Forthite methods and software of International Energy
Agency (IEA).



Technologies of monitoring of the reserves of nonfood biomass in the world and
Russia for providing the developme
nt of economically efficient production of necessary
equipment.



Technologies of steady
-
state industrial production of nonfood biomass and its
utilization for obtaining the electricity, heat, biofuels and other products with high added value
cost.



Technolog
ies of selection and bioengineering methods for the creation of efficient
types of nonfood biomass with prescribed parameters of the content of substances, which are
necessary for the further production from them of energy carriers and other valuable pro
ducts
for the different sectors of industry.



Technologies of processing (mechanical, thermal, chemical, catalytic and other
ones) of nonfood biomass in energy carriers and other valuable products.



Technologies for conditioning the energy carriers for using

in the existing power
and transport systems without changing their main design factors and technological parameters.



Technologies for utilization of organic nonfood waste of agricultural, food and
timber industries, sediments of treatment facilities, sol
id domestic waste for production of
electricity, heat and biofuels.


22



Technologies for absorption (utilization) of GHG emission of power and
industrial plants, industrial and municipal wastes for intensification of nonfood biomass
production.



Technologies
for processing the nonfood biologic mass in raw material for
chemical industry and heavy organic synthesis.



Technologies for obtaining the valuable chemical substances by means of
catalytic processing of biologic spirits, biologic acids and other biologic
substances obtained in
the process of using the nonfood biomass.



Technologies for obtaining the biomass by means of processing of nonfood
biomass with using the ferments.



Technologies for obtaining synthetic gas by means of gasification and pyrolysis of
ca
rbonated biomass.



Technologies for obtaining the wide spectrum of motor fuels (petrols, kerosene,
diesel fuels etc.) from biomass with prescribed chemical methodological properties.

Technologies for obtaining the food supplements for industrial agriculture

(animal
husbandry, poultry farming, fish breeding) within the frameworks of complex utilization of
biomass.




INFORMATION AND COMM
UNICATION TECHNOLOGY


4.National Software Platform


Coordinating company and its contact details

Joint Stock Company «CONCERN «SIRIUS»,

address: ulitca Kadashevskaya nabereshnaya, dom 6/1/2, stroenie 1, 119019 Moscow,
Russian Federation

e
-
mail: info@con
-
sirius.ru

phone: +7 (495) 926
-
78
-
96, fax: +7 (495) 988
-
79
-
75

List of members of the technological

platform


The NSP Technological Platform joins commercial software firms, institutes of Russian
Academy of Science, universities, production firms, system integrators and three main russian
software associations. We should specially mention such research
institutes as Inst. for System
Programming, Inst. for Program Systems,
Institute of Informatics Problems. Here are leading
russian software firms including ABBYY, AVP (Kaspersky Lab), 1C, Ascon and other. Among
free software developpers: ALT Linux, Eters
oft, Centre Group, Rusbittech.

Software assotiations are: RUSSOFT


Russian software association joining main
offshore programming firms; ARPP «National software» joining main developpers of ready
software products; UFOSSA, russian free software associatio
n.


23

Brief description of anticipated targets and main outcomes from the establishment
of the technological platform


The
primary goals

of the creation of the technological platform involve:



Improvement of expense structure

(including public sector expenses) of IT
-
related
procurement and re
-
orientation of financial streams towards the internal market.



Ensuring national security
by means of technological independence and information
security.



Elimination of inferiority in vol
ume and quality of IT
deployed in business,
government and society.



Improvement of education system, encouragement of applied and fundamental
research

in the field of IT.



Development of world
-
class national centers of IT development
that would benefit
fr
om broadening of integration between fundamental and applied science, education system and
industry, including the establishment of international partnerships.



Boosting the competitiveness of domestic IT products
on the local and international
markets.


It

is anticipated that the aforementioned goals will be achieved through the completion of
the following
primary tasks
:



Incremental development and deployment of the Russian
National Software Platform
(hereafter referred to as
NSP
) based on Free Software and

domestic proprietary software, that
would include the following primary components:



Unified technical infrastructure
for distributed development, building, packaging
and distribution of software solutions and technologies included in NSP.



A set of
standard profiles
that ensure compatibility between the different
components of NSP, a set of
profile management
and
verification
tools.



A set of
technologies
(including core software components, tools and systems) for
effective development of software and

IT solutions that are implemented as software
components included in the unified technical infrastructure.



A set of
standardized application solutions based on domestic Free Software and
proprietary software included in the unified technical
infrastructure.



Increasing the level of technology literacy
, encouragement of
deployment
of solutions
from NSP in public sector and business.



Integration
of domestic Free Software developers into key
international projects
.



Advancement of the existing and
establishment of new domestic teams and academic
schools that combine research, educational and industrial activities in the field of IT.
Establishment of multi
-
level system of future
-
oriented training of IT professionals.


The
primary outcomes
will includ
e the following components:



Complete
technical infrastructure of NSP
that ensures full cycle of distributed
development, building, testing, support and distribution of software solutions and technologies
included in NSP:



ensuring of distributed storage of

all software components and their versions with
support for versioning;



tools for control and maintenance of integrity and interoperability;



collaborative development and testing tools;


24



creation of distributable software solutions for different purposes;



testing and consequential inclusion into the unified software repository of Free
Software and domestic proprietary software, including software developed under government
contracts;



A set of
mechanisms to ensure the quality and interoperability
of software

components and solutions built within the framework of NSP.



A set of
open standard profiles
, including specifications of application interfaces,
data protocols and formats that are mandatory for all software components in NSP.



Management and decision maki
ng support tools
used during the creation and
improvement of NSP standards.



Tools for automated compliance verification

of NSP components with the
requirements of the mentioned standards.



A set of
modern open technologies
(including core software component
s and tools)
that are supported by Russian competence centers and are integrated


in the form of software
components


into the unified technical infrastructure:



Technologies of system programming, including operating systems, virtualization
technologies,

compiling tools and databases.



Technologies and instruments of software and system engineering (life
-
cycle
support tools, modeling and verification tools, project management tools, requirements
management tools etc.)



Technologies for distributed and
high
-
performance computing.



Middleware technologies (web servers, application servers).



Telecommunication technologies (including video
-
conferencing).



Multimedia technologies.



Technologies for rapid development of management and accounting applications.



Te
chnologies for information analysis and search, cognitive systems, semantic
technologies.



High
-
precision positioning technologies (with a priority for Russian satellite
navigation system GLONASS)



Biometric technologies.



Voice technologies (coding
-
decoding,

signal processing, recognition and
synthesis)



Technologies for analysis of texts in natural language (primarily for the Russian
language)



A set of standardized software application solutions based on Free Software and
domestic proprietary software (includ
ing multi
-
components application stacks) assembled from
NSP components and technologies, including:



office applications
, digital content processing tools;



e
-
mail, communications, groupware, video
-
conferencing over Internet;



content management;



systems for
management of human resources, public procurement, inventory
tracking etc.
;



system for collection, consolidation and analysis of
accounting and reporting
documents
;



system for tracking of
legislative acts
;


25



systems for automated analysis of documents in Rus
sian language (including
machine translation, automated summarizing and classification of documents, Q&A systems,
optical recognition of documents and forms, including handwriting recognition);



a set of standardized software application solutions for manag
ement of state
agencies and enterprises;



positioning solutions based on satellite navigation and integration of location
-
tracking technologies;



instruments for processing of geoinformation and spacial data;



cloud platform for processing of big data;



system
s for computer
-
aided design and management of industrial engineering data
(CAD/CAM/CAPP/CAE/PDM systems) and product life
-
cycle management (PLM);



systems for pre
-
production and production management;



solutions for critical applications. For example:



avionics and management of power generating systems.



Training programs and training materials
for the technologies and components
included in NSP.



Established teams of Russian specialists (including specialists in the newly
-
established competence centers)
who possess the necessary knowledge and are involved in the
development of all of the existing software solutions in NSP, while being tightly integrated into
the global development community.

In the middle term, achievement of these outcomes and their grad
ual advancement will
allow to overcome the current lag in scientific and technological development, while in the long
term, it will allow to gain solid competitive positions on the global level and become world
leaders in certain areas.

Brief description o
f markets and economy sectors, which are expected to be
influenced by the technologies developed within the TP

Technologies developed within the TP will influence both the immediate software
development industry and the neighboring branches of economy:



sof
tware development for different purposes;



provision of software as a service (SaaS);



all the economy sectors, where massive standardized workspaces are common, are to
be influenced;



production of computer appliances for different purposes;



branches of
economy, where embedded appliances are used: automotive industry,
aviation industry, missile industry, energy, healthcare, public utilities, transport;



branches of defense and civilian industry, where high
-
precision goods are
manufactured (devices, transpo
rtation tools), including automotive industry, aviation industry,
missile industry; energy, healthcare, public services, transport;



microelectronics.

Improvements in interoperability, reliance on the single technological infrastructure will
allow to decrea
se the dependency of government and corporate buyers from solution providers
and, consequently, bring down the costs. This will be especially noticeable in the branches where
standardized software is used. Together with the broadening of Free Software usag
e, this may
result in cost savings in all the ICT
-
consuming industries.

Support for different hardware platforms will allow Russian developers to release
different integrated appliances for telecommunications, geopositioning (GLONASS), embedded

26

application
s (automotive, aviation, missile, energy, healthcare, public services). Support for
multiple hardware platforms is also crucial for the development of domestic microelectronics
industry.

Development of domestic CAD and PLM systems will allow to achieve
radically higher
levels of technical precision of devices manufactured within both defense and civilian industries,
improve their quality and reliability, while decreasing the production time and development
costs. Advancement of distributed data processin
g technologies will allow to offer software
applications to a broad range of users not as a product, but rather as a service. At the same time,
ability to access source code and possessing the professional competence necessary to modify
the code is a signi
ficant factor for high
-
quality provision of services.

Information concerning anticipated cooperation with foreign companies and
organizations

NSP is envisioned as an open consortium open to domestic and international
members that express support for its go
als
. Participation is voluntary, and members are
expected to concentrate on specific activities that match their business interests and needs.

Many projects within NSP could benefit from international cooperation with foreign public and
private organizatio
ns provided these organizations are interested in some of the NSP
technologies.

International cooperation could be particularly beneficial in such areas as:



Innovative
location
-
based development tools and prototype applications
for the
GLONASS platform.



Standardized components for
government community cloud
, including trusted and
secure IaaS components, SaaS marketplace and delivery etc.



Distributed and high
-
performance computing
.



Legal issues concerning the openness of the Russian IT products and service
s
market
, overcoming of legal barriers that hinder dissemination of Russian IT products and
services.

Involvement in NSP could be particularly attractive for government agencies and
private enterprises from the ex
-
USSR countries. There is a number of commo
n IT
-
related tasks
that all of these countries are facing, and there is still great room for advancement of the existing
IT systems:



Tariff management and analytic systems for the Customs
. Cooperation between
Russia, Belarus and Kazakhstan within the Custo
ms Union calls for unified IT systems for
Customs management that would still allow for enough freedom and flexibility for the specific
national needs.



Standardized software and hardware components for
supercomputer systems
.
Russia and Belarus already have

a long history of cooperation in supercomputer development.
NSP can improve the efficiency of this cooperation and attract more international members.



Standardized components for
healthcare management systems
. More intensive use
of IT could help to increa
se the quality of healthcare in ex
-
USSR. As the Western solutions do
not always match the specifics of national healthcare systems, there exists huge opportunity for
co
-
developed systems based on NSP.



Common framework for
legislative databases and legal
applications
. Many
Russia's neighbors have similar legal systems, and more demand for international legal research
and analysis is expected in the future. NSP could dramatically increase the availability and
flexibility of such research and analysis tools.


Cooperation in the above
-
mentioned areas will allow to reap the benefits of regional

27

economic integration organizations. At the same time, it also corresponds to the need for more
intense regional coordination of effort in the light of Russia's upcoming
accession to WTO.


5.

National

HPC Technology Platform»




1.

The technology platform title
:

Web
-
site (in Russian only yet):
http://www.hpc
-
platform.ru/

e
-
mail:
hq@hpc
-
platform.ru
,
elilitko@hpc
-
platform.ru

2.

Technology platform coordinators
:

Program Systems Institute of Russian Academy of Sciences

4a, Petra I Str., Veskovo, Yaroslavskaya obl., Russia, 152021.

Tel. +7(48535)98064,
http://www.psi
-
ras.ru/


Moscow State University
,

Leninskie gory, GSP
-
1, Moscow, Russia, 119991

Tel. +7 (495) 939
-
1000,
http
://
www
.
msu
.
ru
/


3.

Some of the major part
icipants:



The State Atomic Energy Corporation ROSATOM



The State Corporation ROSTECHNOLOGII,



The State Corporation ROSCOSMOS



NRC

«
Kurchatovs Institute
»,



Institute of the System Researches of RAS,



Institute of the Chemical Physics Problems of RAS



Semenovs Institute of Chemical Physics of RAS



Trapeznikovs Institute of the Control Problems of RAS



Institute of the Informatics Problems of RAS



Institute of the Mathematics and Mechanics of UrD of RAS



Geophysics Center of RAS



System Analysis Institute

of RAS



Institute of the mathematic problems of the biology of RAS



Joined Institute of the problems of informatics of the Belorussian National Academy of
Sciences



Russian

Space

Systems




Makeevs

State

Rocket Center


28



Alt
-
Linucs




Sigma Technology




Kraftway

Corp
.



Tesis



Armada




Kaledin

&
partners




RSC SKIF



STORUS



E
-
Tegro Technologies



ArByte Computers




Microsoft Russia



AMD



Intel




and many more



Totally platform brings together more than 170 members.

4.

Short description of the problems and expected results of
the Technology Platform

The main goals of the Platform



Creation of the long term view of the HPC, perspective technologies definition;



Creation of the roadmap for the researches in HPC, networks, grid
-
technologies and
cloud
-
computing;



Making up the schemes

of the cooperation between research institutes, industries and
government in HPC field;



Creation of the coordinated technology politics with respect to both delelopers and users
of the HPC technologies;



Coordination of the national innovative programs in
HPC field;



Developemnt of the national standards for the HPC and grid
-
systems compatible with
European standards;



Coordination of the efforts for domestic chips development;



Coordination of the efforts for domestic HPC software development;



Involving the a
dditional government and private resources to the HPC area;



Working on the laws and norms improvement;



Consolidation and promoting the interests of the platform members on all the levels of
the decision making;


29

Expected results:

Short term:



Forecast of th
e HPC trends and the main challenges for the nearest 20 years;



The HPC development program in Russia for the nearest 5 years and the roadmap for the
nearest 15 years;



Schemes and principles of the interbranch cooperation;



Proposals for norms and laws impro
vements to make better conditions for HPC field
development;



Proposals for some standards and other technical regulations;



Proposals for Federal Program of the HPC development;



Proposals for Federal Program of the domestic software development;

Middle term
:



Well established schemes and principles of the interbranch cooperation;



Investments into HPC must grow significantly;



National
-
wide GRID systems connected to European GRIDs;



Domestic hardware must take the lion’s share on the local market;



Export the
system software to other countries;



The domestic market of the middleware must appear;



The protection of Russian copyright owners get effective;



Most software for high
-
performance computations must be available through the SaaS
-
like techniques;



Universitie
s must have the special HPC units and courses.

Long term
:



The Russia must have all the domestic technologies (starting from chips and wires and up
to the national
-
wide systems);



The domestic HPC market must get stable due to the demand from the domestic
industries;



Russian companies must get the significant share on the world
-
wide market of the HPC
solutions.

5.

Short description of the markets the Platform is going to impact on



Defensive industries



Finance



Climate and weather research


30



Energy



Geophysics



Telecommunications



IT



Space research



Automotive



Biology and Biotechnologies



Medicine



Mechanical engineering




Electronics



Semiconductors field



Transport and logistics



Infrastructure



Entertainment



Technical regulations



Science

6.

The international cooperation
possibilities

The Russian HPC Technology Platform is opened for international cooperation with any foreign
company, research centre and other institution as soon as the partner respects goals of objectives
of the Platform.

Some of well known foreign compan
ies already joined the Platform (Intel, AMD, Microsoft)

The cooperation is highly welcomed in any field such as development, research, marketing, etc.








PHOTONIC

6. Innovative laser, optical and optoelectronic technologies


photonics


1. Name.


31


Full
title: «Innovative laser, optical and optoelectronic technologies


photonics ".

Short title: "Photonics"


2. Organization
-
Coordinator
: Laser Association (non
-
profit non
-
governmental
scientific and technical organization, which unites institutions and ente
rprises of domestic laser
-
optical branch).
Address: Vvedensky str., 3, build 1, Moscow, Russia, tel.: 495/333
-
00
-
22, fax:
495/334
-
47
-
80,

e
-
mail: las@tsr.ru, website: http://www.cislaser.com/las


3. A brief description of the alleged problems and the main
results of the creation
of this technology platform.


Currently, laser
-
optical and optoelectronic technologies, which are usually combined by
the term "photonics" (highlighting the fact that they are based on the emission (absorption) of
photons, or manipu
lating the photon flux) have become one of the drivers of innovations for the
world economy.

Today it's difficult to specify the area of human activity where these technologies would not give
a powerful effect
-

from basic research to show business. Meanin
gfully to technical progress and
economic modernization implementation of modern photonics is analogous to the electrification
in the beginning of the last century. Developed countries are making active efforts to accelerate
the development of photonics br
anch as high
-
tech industry.

Global photonics market is now about 420 billion dollars a year, its growth rate


8,6% per year.
Russia, with its extensive scientific and industrial potential in the field of photonics,
unfortunately, is significantly inferior

to the developed countries on the scale of its practical use.
It causes the country significant economic losses and slows its modernization. At the same time,
numerous examples of the organization by our compatriots in the last 10 years, the successful
la
ser
-
optical enterprises and highly efficient production of modern photonics abroad, various
examples of photonics developments in some domestic defense enterprises indicate the presence
in Russia of a large technological advance, as well as talented invent
ors and managers which are
necessary for the successful development of the national laser
-
optical industry, opto
-

and
photoelectronics, photonics in general.

Coordination is needed, support of promising developments, training of the necessary personnel
an
d creation of the necessary infrastructure for continued dialogue between creators and users of
photonics.


32

To solve these problems in Russia the Technology Platform "Innovative laser, optical and
optoelectronic technologies
-

photonics" (abbreviation: TP "
Photonics") was organized.

This Technology Platform should develop a strategic plan of action that provides: 1) the rapid
learning to handle modern efficient photonic technologies in all sectors of national economy,

2) production in Russia the laser
-
optica
l and optoelectronic technology in accordance
with the projected needs, 3) training of specialists that can effectively use photonics in various
areas of its applications. Following the adoption of this program and its incorporation into the
framework of t
he State industrial policy TP should assist in carrying out tenders for projects
under the strategy adopted and implementation of projects that will win these tenders. In
addition, the TP should conduct ongoing monitoring of the photonic industry and deman
d for its
products from other industries, should forecast the development of photonics and its markets,
should submit proposals for the correction and development programs of laser
-