Friday, June 15, 2012

Cheesecakes from Sintra = Queijadas de Sintra



Cheesecakes from Sintra (Queijadas de Sintra) are regional pastry that can only be found in the historical town of Sintra.

These tiny but yet incredibly tasty cakes, have a soft inside and a crunchy outside.
The filling of 'queijadas' is the result of the unusual blend of fresh goat cheese, eggs and cinnamon.

Every day, thousands of 'queijadas' are baked in small and dedicated bakeries in Sintra.

Traditionally, we purchase a wrapped stack of six 'queijadas' and enjoy their crunchiness while surrounded by the magical environment of Sintra.
Source:

The battle for Lisbon’s best pastry

13 January 2012 | By Karina Martinez-Carter
BBC Travel

Pastel de nata Portugal
The archetypal Portuguese pastry is the pastel de nata, a custard tart with hints of lemon, cinnamon and vanilla. (Sian Irvine)
On the streets winding up, down and around the seven hills that comprise Lisbon, and in town plazas throughout the country, the pastelaria or confeitaria (pastry shop) is a mainstay of the Portuguese neighbourhood.
Pastelarias in Portugal stay busy throughout the day as customers pop in to purchase boxes of pastries, or pause for a bit to savour baked morsels and coffee. Rows of flaky, palm-sized pastries fill window displays in stacked pans. The golden-brown confections complement the colour scheme of typical Portuguese architecture: from the burnt orange roofs to the clean white buildings to decorative hues that resemble the colour of butter.
Rather than using elaborate toppings or mouldings, the Portuguese keep their baked goods simple. Each type of pastry varies only slightly from the next, and they often come topped or filled with a sweet, gooey custard. The fundamental ingredient is the egg yolk, which is used in as many ways as possible.
The archetypal Portuguese pastry is the pastel de nata, a custard tart with hints of lemon, cinnamon and vanilla, often sprinkled with powdered sugar and easily consumed in a few bites. It resembles a tiny pie, and the baked, creamy egg custard is cupped in the centre. Throughout the country, the pastel de nata is so adored that discussions about which shop makes the best often become enlivened debates.
Many believe that this sacred Portuguese pastry is found in its most heavenly form at the Antiga Confeitaria de Belem (commonly known as the Pastéis de Belém), located west of downtown Lisbon. It is believed that the first-ever version of this dessert was baked in the same spot more than 200 years ago by nuns at the Mosteiro dos Jerónimos, which adjoins the pastry shop. Nuns are credited with creating many of the country’s pastries, and some say the egg yolk became a central ingredient in Portuguese baking because the nuns used so many egg whites to starch their attire.
Pastéis de Belém has been in operation since 1837, and the same, closely guarded recipe has been followed since that very first year. A few “master confectioners” are the only ones who know the art, and they concoct batches of the confection within the confines of a “secret” room in the shop. It is the most-frequented pastry shop in the whole of Portugal, but it is not just tourists who bring the volume of traffic. Locals also know it as the best spot for their most beloved pastries.
Those on a tight schedule order their pastries to take away from the dapper, bow-tied staff behind the counter. Others eat at a table in one of the cafe’s multiple seating areas, adorned with painted blue and white tiles, just steps from the Belem Tower -- a monument from which numerous Portuguese expeditions have set sail.
Lisbon’s kingly Pastelaria Versailles (Avenida da Republica 15 A, 351-21-354-63-40) is a young cafe in comparison, dating back to 1932, but many claim Versailles’ pastel de nata rivals the recipe found at Pastéis de Belém. The sign outside, written in a fanciful script, foretells the baroque-style interior, marked with rich woods, ornate mirrors and staffed with smartly dressed waiters. The cafe is a National Heritage site and is one of the most famous cafes in the country, though its location slightly north of the city discourages tourists from making it for a breakfast or teatime pastry. Other favourites on offer include croissants stuffed with custard or pudim flã (a Portuguese flan).
Pre-dating the Pastéis de Belém, Confeitaria Nacional opened in the capital city in 1829 and once served as the Portuguese monarchy’s official bakery, supplying the family with their daily choice of sweets. The traditional Bolo Rei fruitcake is a house specialty and a must for Portuguese Christmas tables. Though the Bolo Rei is originally a French recipe, the Confeitaria was the first to introduce it to Portugal and the bakery has adopted the dessert as their own. The bakery also sets out favourites such as queijadas de Sintra, a pastry that originated in Sintra, a town 30 minutes northwest of Lisbon, and features a sweet, light cheese in addition to many of the same ingredients as the pastel de nata. Like many pastry shops in Portugal, it is family-owned.

Source:
www.bbc.com

Tuesday, June 12, 2012

Coimbra City








Source:
google images

Serra da Lousã (Lousã Mountain)









Source:
google images

Portuguese Honey



Known as the "nectar of the Gods", with sweet and nutritious characteristics, it holds the title of excellence in Portugal as one of Europe’s finest. 

Known since prehistoric times, it is able to remain true to its essence since there is little human intervention in its production. With its pollen collected and processed almost exclusively by bees, the honey is one of the most natural products that we have access to.

In Portugal, the history of this product is linked to the occupation of the Romans who settled in the Iberian Peninsula and introduced beehives that are still used in our country today.

Honey production is scattered across Portugal from north to south, as well as across the islands. In total there are nine Portuguese qualified honeys: in the northern region, the Honey from Terra Quente, Terras Altas do Minho and Parque de Montesinho; in the central region, the Honey from Serra da Lousã and Barroso; in the Lisbon region, the Honey from Ribatejo Norte; in the Alentejo region, the Honey from Alentejo; in the Algarve, the Honey from Serra de Monchique; and in the Azores the Honey from the Azores.

The product, which is intrinsically connected to nature, will always vary in quality and shade according to the flower, the climate and the bees in each region. The type of flower can be used as a way of categorising the honey; species of flower include rosemary, eucalyptus, sunflower, heather and orange tree. Rosemary honey is mostly used at the table and in the cuisine.

What Madeira lacks in honey it makes up for with its own qulified Honey Cake (Bolo de Mel) the oldest and most famous of all sweets from Madeira. Moreover, honey is mostly used in cakes and desserts, generally as a healthy substitute for sugar

Did you know...
"Fall like soup into honey" (Cair como a sopa no mel) is a popular expression that is used to describe the right thing happening at the right time.

Source:
www.taste-portugal.com

Tuesday, May 29, 2012

Champalimaud Foundation



The Champalimaud Foundation supports individual researchers and research teams working at the cutting edge of biomedical science. It aims to stimulate novel theoretical and practical methodologies by utilising the experience of both research scientists and medical practitioners.

The impact of progressive research – basic, applied and clinical - is typically far-reaching, affecting how illnesses and diseases are diagnosed and treated throughout the world. The Champalimaud Foundation aims to maximise the work being done in the fields of cancer research and neuroscience. Another primary objective is to make advances in the field of international vision research. As a result of this, the Foundation intends to make a significant contribution to the fight against vision-related illness and disease.

As it is a private organisation, the scope for the research initiatives and funding programmes of the Champalimaud Foundation is unrestrained by national borders. If a particular country is in a better position – governmentally, clinically and/or institutionally – to accommodate a certain type of biomedical research, the Foundation has the flexibility and freedom to respond quickly and to lend its support.

Source:
www.fchampalimaud.org

Braga City








source:
google images

visit:
www.cm-braga.pt

Tuesday, May 8, 2012

Information Technologies

Research at ICTI

Whether in masters or doctoral programs – as individuals or in teams – students at ICTI engage in a wide range of research projects. Throughout our various graduate programs, student and faculty research is a key component to ICTI’s academic strengths.
As a program, ICTI’s research component focuses on scientific areas including information processing and networks, critical infrastructure and risk assessment, applied mathematics and technology, innovation and policy. A robust industrial affiliate program includes the membership of Portugal Telecom, the main telecommunications operator in Portugal, Nokia Siemens Networks; and Novabase. Other major national and multinational companies and a number of technology-based firms including Critical Software, a leading Portuguese software company, are committed to helping define the program strategy and direction.
View our Student’s Research to see examples of their work. To view the research of our faculty, visit our Faculty page.

Carnegie Mellon | Portugal Program: Research Themes

The major theme for the CMU-Portugal Program is Information and Communication Technologies (ICT). ICT has a major impact in the economic development and employment growth of the country. The impact of innovations in information and communication technologies cuts across not only industries such as computers and software, but many other sectors, as organizations in every area of activity adopt ever more sophisticated information and communication technologies.
The CMU-Portugal Program on information and communication technologies includes four main areas of core activity:
  • Information processing and networking, namely information networking, language technology, software engineering, as well information infrastructures security and dependability.
  • Critical infrastructures and risk assessment. . This area includes several focus topics, including sensing technologies and networks as well as risk Assessment and management.
  • Basic sciences with an emphasis on applied mathematics.
  • Technology, innovation and policy, focusing on technological change and entrepreneurship, as well as engineering and public policy applied to network Industries.
Information Networking: In a relatively short time, the Internet has evolved from a small research network used by researchers into a critical infrastructure that delivers a wide variety of services to hundreds of millions of users. Looking forward, we see a number of trends that are likely to cause a similarly dramatic transformation in the next ten to fifteen years. First, while the Internet initially connected fixed, wired, computers, current trends suggest that in the near future, the vast majority of users will use wireless, mobile devices to access Internet services. These personal devices will be complemented by large numbers of non-computational devices, including sensors, actuators, and I/O devices, most of which will also be wireless. This means that wireless will be pervasive as an access network technology. At the same time, the service infrastructure is evolving from simple client-server applications into a sophisticated, highly distributed, highly resilient software platform that delivers personalized services to users. Research to respond to this set of challenges is one of the critical topics included in the context of the Carnegie Mellon|Portugal collaboration.
Language Technology: There are a number of areas of strong interest that are being pursued: computer aided language learning (CALL), speech-to-speech machine translation (S2SMT), speech recognition, speech synthesis, dialogue systems, summarization, and topic detection and tracking. In particular, the CMU-Portugal Program will pursue two very important multilingual research projects: in computer aided language learning (CALL); and speech-to-speech machine translation (S2SMT). These projects will involve at least two languages, one of them being Portuguese, the target language for the CALL system to be developed and either the source or target language (or both) for the MR system. The other language is either English or Chinese (Mandarin) or both. Chinese is of particular interest to both parts, because of the existing expertise at LTI with language technologies for Chinese and the great demand from China for products involving Portuguese.
Software Engineering: Today’s world of rapidly changing software technology underscores the need for software engineering research and education to deal with new methods, tools, platforms, user expectations, and software markets that address the large scale problems that dominate current relevant applications. The programs envisaged in this CMU-Portugal cooperation target the further development of the educational and research programs at Portuguese Universities in IT and software engineering. These programs hold the potential for a significant impact on traditional large companies consumers and producers of software.
Information infrastructures security and dependability: Dependability and security are very important fields in information technology. Dependability attempts to keep systems working correctly despite the occurrence of accidental faults or defects, while security addresses problems arising from malicious hazards, attacks, or intrusions. Because systems are increasingly so complex, dynamic, and interdependent, it is no longer possible to consider these two problems, security and dependability, independently. In a modern perspective, security and dependability are concerned with both information and infrastructure. Of particular interest, are critical information infrastructures, their pervasive interconnection, and the progressive intertwining of “normal” and embedded systems. The Internet has been transformed by the proliferation of embedded, inconspicuous, and often mobile devices that cluster and un-cluster in ad-hoc fashion. Many are connected to physical artifacts, like in smart homes or ambient intelligence. This reality includes wifi-enabled small computers, wireless sensor and actuator devices, network-enabled embedded gadgets that are present in every day life, but also large scale systems like the telecom network, or the power grid that are permeated with computers that introduce digital control. This new reality poses major challenges from a security, dependability, and resiliency points of view against threats that are not known à priori. These threats include accidental hazards or faults and malicious attacks or intrusions. Given the complexity of these modern large-scale infrastructures, the educational and research program on security and dependability will pursue the development of rigorous design methodologies for fault and intrusion prevention, tolerance, and detection.
Instrumented infrastructures - sensor networks: Recent technological developments in large-scale electronics and RF integration make it feasible and practical to address the security, continuous monitoring, and rationale management of critical infrastructures, by making very cost effective to fabricate sensing platforms that are autonomous, and have computing, sensing, and wireless communications transceivers capabilities. These inexpensive platforms are easily deployable to form ad-hoc wireless sensor networks that can be used to instrument the highly distributed, geographically extensive infrastructures like, for example, the highway system, power grids, cities, airports, as well as impromptu spaces in urgent need of surveillance or monitoring. These ad-hoc wireless sensor networks pose new problems and challenges to traditional information technology systems and telecom service providers. These challenges include: telecommunications; security; on the fly network topology design and reconfiguration; distributed software validation and fault tolerant design; network traffic estimation under constraints; or distributed decision. All these issues are to be dealt with under power constraints and scarcity of other resources.
Risk analysis and assessment: For a comprehensive program on critical infrastructures, we need to analyze and assess the risk of each possible methodology for monitoring or preventing disaster. Minimum risk decision systems must rely on adequate technological infrastructures, which have to be designed in accordance to well defined criteria, e.g., minimum cost subject to a given level of expected protection. Therefore, systems analysis, risk analysis, and behavioral decision theory form the fundamental core of a balanced and complete approach to the design of infrastructure systems, and play a key role in the definition of strategies of communication to systems’ operators and users and in public perception management.
Technical Change and Innovation: Innovation and technical change are nowadays the main engines of economic and social development. Thus, the development of strategies and policies to guide innovative activity in countries, regions and organizations is essential for the re-structuring and renewal of market economies, an imperative challenge for productivity and employment to grow. As the process of change accelerates, entrepreneurship is also becoming increasingly prominent. As a result, achieving excellence in education and research in the areas of technological innovation and policy has become essential for the competitiveness of firms, regions and countries. The transition towards a knowledge-based, entrepreneurial model of development requires the education of high quality human resources that can teach, research and work at high level private sector and public administration positions in technology commercialization and the strategic management of technology. Through their future role as educators and leading experts in these areas, these human resources could significantly influence the development of Portugal, Europe and beyond.
Engineering and Public Policy Applied to Network and Software Industries: This subarea considers two main themes for research. First, it considers telecommunications management and policy. This is because digital convergence is dramatically changing the technology, services and competitive environment faced by telecommunications carriers around the world. Portugal is no exception. Separate infrastructures tightly tied to specific services, such as telephone and cable, are giving way to generic IP based infrastructures providing a wide gamut of services, including voice, data and video. This transformation impacts industry structure, competition and regulatory policy. Critical questions range from: Is the diffusion of broadband best realized by a monopoly provider of infrastructure, or should telephone, cable and wireless based infrastructures be provided by independent entities, each competing for the customer? Second, this subarea will also consider “Public Policy for Power Grids”. The development and management of electric power grids and advanced low-carbon uses of coal, other fossil fuels, and the integration of intermittent renewables are key problems that will shape the future development of the electricity industry. This research will include, among other, looking at technical, economic, regulatory and risk-related studies of distributed energy systems, micro-grids, and advanced information technologies for integrating and controlling such systems in conventional electric power systems; studies of technology innovation in energy and environmental technologies, its relationship to government actions (both "carrots" and "sticks") and its implications for policy and energy systems development.

Source:
www.cmuportugal.org

CENTI = The Nanotechnology Center in Braga

Welcome to CeNTI

welcome_cloudCeNTI provides, in a business to business approach, applied R&D, engineering and scaling-up production of innovative smart materials and devices.
Our strategy follow 5 guidelines:
  1. Creation of a multi-disciplinary group (chemistry, physics, engineers – chemical, materials, electronics, biomedical)
  2. Experimental activities (prototyping, sampling, scaling-up) with scientific support
  3. Activity from laboratory to industrialization (lab2fab)
  4. High quality, unique service at affordable R&D costs
  5. Real and proved benefit at low production costs
The Centre for Nanotechnology and Smart Materials (CeNTI) is based in Portugal and its role is to drive the development of new materials in order to contribute to product or innovation through all the necessary stages of development. It was founded by CITEVE (the Technological Centre for the Textile and Clothing Industries), the University of Minho, the University of Porto, the University of Aveiro and CTIC (the Technological Centre for the Leather Industry).
CeNTI’s service is a multi-disciplinary and includes technologists and researchers (physicists, chemists, materials/chemical/electronics/biological engineers). Targeting world-class research and development, CeNTI’s knowledge is based on the development of multicomponent fibres, smart materials/devices, multifunctional coatings and organic electronics and embedded systems.

Source:
www.centi.pt

Portuguese furniture










Source:
www.heranca.com