Color Copies in Woodbury Mn
Digital printing in Minnesota has been a door opener for many businesses. Because printers sell the same thing as everyone else, everyone tries to claim that their service, quality and price are better than others. For this reason, every printer has to find something that would separate them from everyone else. And some business owners find that they have increased productivity after using digital technology and short run processes. Somehow, these gains can be credited to a combination of better pricing and more efficient press performance. Let’s say you have greeting cards that need to be printed. Obsolete inventory through the use of short run digital press can be eliminated.
Color Copies in Woodbury Mn
This is because with this technology you can print only the needed cards, thus, resulting to orders printed in the exact quantity required. But just the same this kind of printing system is not for everyone. There are risks and changes that need to be dealt with. Nevertheless, the printing industry will continue to change and improve in the years to come. Thus, all business owners and companies have to do is to determine whether this certain printing technique is what they need.
Commercial Digital Print, Color Copies
From top to bottom, left to right: cylinder seal of a scene, block used for woodblock printing, Korean movable type, printing press, lithograph press, offset press used for modern lithographic printing, linotype machine for hot metal typesetting, digital printer, 3D printer in action. Printing is a process for reproducing text and images using a master form or template. The earliest examples include Cylinder seals and other objects such as the Cyrus Cylinder and the Cylinders of Nabonidus. The earliest known form of woodblock printing came from China dating to before 220 A.D. Later developments in printing include the movable type, first developed by Bi Sheng in China around 1040 AD. Johannes Gutenberg introduced mechanical movable type printing to Europe in the 15th century. His printing press played a key role in the development of the Renaissance, Reformation, the Age of Enlightenment, and the scientific revolution and laid the material basis for the modern knowledge-based economy and the spread of learning to the masses. Modern large-scale printing is typically done using a printing press, while small-scale printing is done free-form with a digital printer. Though paper is the most common material, it is also frequently done on metals, plastics, cloth, and composite materials. On paper it is often carried out as a large-scale industrial process and is an essential part of publishing and transaction printing. Main article: History of printing Main article: Woodblock printing Woodblock printing is a technique for printing text, images or patterns that was used widely throughout East Asia. It originated in China in antiquity as a method of printing on textiles and later on paper. As a method of printing on cloth, the earliest surviving examples from China date to before 220 A.D. The intricate frontispiece of the Diamond Sutra from Tang-dynasty China, 868 A.D. (British Library) Main article: History of printing in East Asia The earliest surviving woodblock printed fragments are from China. They are of silk printed with flowers in three colours from the Han Dynasty (before 220 A.D.). They are the earliest example of woodblock printing on paper appeared in the mid-seventh century in China. By the ninth century, printing on paper had taken off, and the first extant complete printed book containing its date is the Diamond Sutra (British Library) of 868. By the tenth century, 400,000 copies of some sutras and pictures were printed, and the Confucian classics were in print. A skilled printer could print up to 2,000 double-page sheets per day. Printing spread early to Korea and Japan, which also used Chinese logograms, but the technique was also used in Turpan and Vietnam using a number of other scripts. This technique then spread to Persia and Russia. This technique was transmitted to Europe via the Islamic world, and by around 1400 was being used on paper for old master prints and playing cards. However, Arabs never used this to print the Quran because of the limits imposed by Islamic doctrine. Block printing, called tarsh in Arabic, developed in Arabic Egypt during the ninth and tenth centuries, mostly for prayers and amulets. There is some evidence to suggest that these print blocks made from non-wood materials, possibly tin, lead, or clay. The techniques employed are uncertain, however, and they appear to have had very little influence outside of the Muslim world. Though Europe adopted woodblock printing from the Muslim world, initially for fabric, the technique of metal block printing remained unknown in Europe. Block printing later went out of use in Islamic Central Asia after movable type printing was introduced from China. The earliest known woodcut, 1423, Buxheim, with hand-colouring Block printing first came to Europe as a method for printing on cloth, where it was common by 1300. Images printed on cloth for religious purposes could be quite large and elaborate. When paper became relatively easily available, around 1400, the medium transferred very quickly to small woodcut religious images and playing cards printed on paper. These prints produced in very large numbers from about 1425 onward. Around the mid-fifteenth-century, block-books, woodcut books with both text and images, usually carved in the same block, emerged as a cheaper alternative to manuscripts and books printed with movable type. These were all short heavily illustrated works, the bestsellers of the day, repeated in many different block-book versions: the Ars moriendi and the Biblia pauperum were the most common. There is still some controversy among scholars as to whether their introduction preceded or, the majority view, followed the introduction of movable type, with the range of estimated dates being between about 1440 and 1460. Copperplate of 1215–1216 5000 cash paper money with ten bronze movable types Jikji, "Selected Teachings of Buddhist Sages and Son Masters" from Korea, the earliest known book printed with movable metal type, 1377. Bibliothèque Nationale de France, Paris Main article: Movable type See also: History of Western typography Movable type is the system of printing and typography using movable pieces of metal type, made by casting from matrices struck by letterpunches. Movable type allowed for much more flexible processes than hand copying or block printing. Around 1040, the first known movable type system was created in China by Bi Sheng out of porcelain. Bi Sheng used clay type, which broke easily, but Wang Zhen by 1298 had carved a more durable type from wood. He also developed a complex system of revolving tables and number-association with written Chinese characters that made typesetting and printing more efficient. Still, the main method in use there remained woodblock printing (xylography), which "proved to be cheaper and more efficient for printing Chinese, with its thousands of characters". Copper movable type printing originated in China at the beginning of the 12th century. It was used in large-scale printing of paper money issued by the Northern Song dynasty. Movable type spread to Korea during the Goryeo dynasty. Around 1230, Koreans invented a metal type movable printing using bronze. The Jikji, published in 1377, is the earliest known metal printed book. Type-casting was used, adapted from the method of casting coins. The character was cut in beech wood, which was then pressed into a soft clay to form a mould, and bronze poured into the mould, and finally the type was polished. The Korean form of metal movable type was described by the French scholar Henri-Jean Martin as "extremely similar to Gutenberg's". Cast metal movable type was spread to Europe between the late 14th century and the early 15th century. A case of cast metal type pieces and typeset matter in a composing stick Main article: Printing press Around 1450, Johannes Gutenberg introduced the first movable type printing system in Europe. He advanced innovations in casting type based on a matrix and hand mould, adaptations to the screw-press, the use of an oil-based ink, and the creation of a softer and more absorbent paper. Gutenberg was the first to create his type pieces from an alloy of lead, tin, antimony, copper and bismuth – the same components still used today. Johannes Gutenberg started work on his printing press around 1436, in partnership with Andreas Dritzehen – whom he had previously instructed in gem-cutting – and Andreas Heilmann, the owner of a paper mill. Compared to woodblock printing, movable type page setting and printing using a press was faster and more durable. Also, the metal type pieces were sturdier and the lettering more uniform, leading to typography and fonts. The high quality and relatively low price of the Gutenberg Bible (1455) established the superiority of movable type for Western languages. The printing press rapidly spread across Europe, leading up to the Renaissance, and later all around the world. Page-setting room - c. 1920 Gutenberg's innovations in movable type printing have been called the most important invention of the second millennium. Main article: Rotary printing press The rotary printing press was invented by Richard March Hoe in 1843. It uses impressions curved around a cylinder to print on long continuous rolls of paper or other substrates. Rotary drum printing was later significantly improved by William Bullock. The table lists the maximum number of pages which various press designs could print per hour. All printing process are concerned with two kinds of areas on the final output: Image Area (printing areas) Non-image Area (non-printing areas) After the information has been prepared for production (the prepress step), each printing process has definitive means of separating the image from the non-image areas. Conventional printing has four types of process: Planographics, in which the printing and non-printing areas are on the same plane surface and the difference between them is maintained chemically or by physical properties, the examples are: offset lithography, collotype, and screenless printing. Relief, in which the printing areas are on a plane surface and the non printing areas are below the surface, examples: flexography and letterpress. Intaglio, in which the non-printing areas are on a plane surface and the printing area are etched or engraved below the surface, examples: steel die engraving, gravure Porous, in which the printing areas are on fine mesh screens through which ink can penetrate, and the non-printing areas are a stencil over the screen to block the flow of ink in those areas, examples: screen printing, stencil duplicator. Miehle press printing Le Samedi journal. Montreal, 1939. Main article: Letterpress printing Letterpress printing is a technique of relief printing. A worker composes and locks movable type into the bed of a press, inks it, and presses paper against it to transfer the ink from the type which creates an impression on the paper. Letterpress printing was the normal form of printing text from its invention by Johannes Gutenberg in the mid-15th century and remained in wide use for books and other uses until the second half of the 20th century, when offset printing was developed. More recently, letterpress printing has seen a revival in an artisanal form. Main article: Offset press Offset printing is a widely used printing technique. Offset printing is where the inked image is transferred (or "offset") from a plate to a rubber blanket. An offset transfer moves the image to the printing surface. When used in combination with the lithographic process, a process based on the repulsion of oil and water; the offset technique employs a flat (planographic) image carrier. So, the image to be printed obtains ink from ink rollers, while the non-printing area attracts a film of water, keeping the non-printing areas ink-free. Currently, most books and newspapers are printed using the technique of offset lithography. Main article: Rotogravure Gravure printing is an intaglio printing technique, where the image being printed is made up of small depressions in the surface of the printing plate. The cells are filled with ink, and the excess is scraped off the surface with a doctor blade. Then a rubber-covered roller presses paper onto the surface of the plate and into contact with the ink in the cells. The printing cylinders are usually made from copper plated steel, which is subsequently chromed, and may be produced by diamond engraving; etching, or laser ablation. Gravure printing is used for long, high-quality print runs such as magazines, mail-order catalogues, packaging and printing onto fabric and wallpaper. It is also used for printing postage stamps and decorative plastic laminates, such as kitchen worktops. The other significant printing techniques include: European output of books printed by movable type from ca. 1450 to 1800 Main article: History of printing It is estimated that following the innovation of Gutenberg's printing press, the European book output rose from a few million to around one billion copies within a span of less than four centuries. Samuel Hartlib, who was exiled in Britain and enthusiastic about social and cultural reforms, wrote in 1641 that "the art of printing will so spread knowledge that the common people, knowing their own rights and liberties, will not be governed by way of oppression". Replica of the Gutenberg press at the International Printing Museum in Carson, California In the Muslim world, printing, especially in Arabic scripts, was strongly opposed throughout the early modern period, though sometimes printing in Hebrew or Armenian script was permitted. Thus the first movable type printing in the Ottoman Empire was in Hebrew in 1493. According to an imperial ambassador to Istanbul in the middle of the sixteenth century, it was a sin for the Turks to print religious books. In 1515, Sultan Selim I issued a decree under which the practice of printing would be punishable by death. At the end of the sixteenth century, Sultan Murad III permitted the sale of non-religious printed books in Arabic characters, yet the majority were imported from Italy. Ibrahim Muteferrika established the first press for printing in Arabic in the Ottoman Empire, against opposition from the calligraphers and parts of the Ulama. It operated until 1742, producing altogether seventeen works, all of which were concerned with non-religious, utilitarian matters. Printing did not become common in the Islamic world until the 19th century. Jews were banned from German printing guilds; as a result Hebrew printing sprang up in Italy, beginning in 1470 in Rome, then spreading to other cities including Bari, Pisa, Livorno, and Mantua. Local rulers had the authority to grant or revoke licenses to publish Hebrew books, and many of those printed during this period carry the words 'con licenza de superiori' (indicating their printing having been licensed by the censor) on their title pages. It was thought that the introduction of the printing medium 'would strengthen religion and enhance the power of monarchs.' The majority of books were of a religious nature, with the church and crown regulating the content. The consequences of printing 'wrong' material were extreme. Meyrowitz used the example of William Carter who in 1584 printed a pro-Catholic pamphlet in Protestant-dominated England. The consequence of his action was hanging. Print gave a broader range of readers access to knowledge and enabled later generations to build directly on the intellectual achievements of earlier ones without the changes arising within verbal traditions. Print, according to Acton in his lecture On the Study of History (1895), gave "assurance that the work of the Renaissance would last, that what was written would be accessible to all, that such an occultation of knowledge and ideas as had depressed the Middle Ages would never recur, that not an idea would be lost". Bookprinting in the 16th century Print was instrumental in changing the nature of reading within society. Elizabeth Eisenstein identifies two long-term effects of the invention of printing. She claims that print created a sustained and uniform reference for knowledge as well as allowing for comparison between incompatible views. Asa Briggs and Peter Burke identify five kinds of reading that developed in relation to the introduction of print: Critical reading: due to the fact that texts finally became accessible to the general population, critical reading emerged because people were given the option to form their own opinions on texts Dangerous Reading: reading was seen as a dangerous pursuit because it was considered rebellious and unsociable especially in the case of women, because reading could stir up dangerous emotions such as love and that if women could read, they could read love notes Creative reading: printing allowed people to read texts and interpret them creatively, often in very different ways than the author intended Extensive Reading: print allowed for a wide range of texts to become available, thus, previous methods of intensive reading of texts from start to finish, began to change and with texts being readily available, people began reading on particular topics or chapters, allowing for much more extensive reading on a wider range of topics Private reading: became linked to the rise of individualism because before print, reading was often a group event, where one person would read to a group of people and with print, literacy rose as did availability of texts, thus reading became a solitary pursuit The invention of printing also changed the occupational structure of European cities. Printers emerged as a new group of artisans for whom literacy was essential, although the much more labour-intensive occupation of the scribe naturally declined. Proof-correcting arose as a new occupation, while a rise in the amount of booksellers and librarians naturally followed the explosion in the numbers of books. By 2005, Digital printing accounts for approximately 9% of the 45 trillion pages printed annually around the world. Printing at home, an office, or an engineering environment is subdivided into: Some of the more common printing technologies are: Vendors typically stress the total cost to operate the equipment, involving complex calculations that include all cost factors involved in the operation as well as the capital equipment costs, amortization, etc. For the most part, toner systems are more economical than inkjet in the long run, even though inkjets are less expensive in the initial purchase price. Professional digital printing (using toner) primarily uses an electrical charge to transfer toner or liquid ink to the substrate onto which it is printed. Digital print quality has steadily improved from early color and black and white copiers to sophisticated colour digital presses such as the Xerox iGen3, the Kodak Nexpress, the HP Indigo Digital Press series, and the InfoPrint 5000. The iGen3 and Nexpress use toner particles and the Indigo uses liquid ink. The InfoPrint 5000 is a full-color, continuous forms inkjet drop-on-demand printing system. All handle variable data, and rival offset in quality. Digital offset presses are also called direct imaging presses, although these presses can receive computer files and automatically turn them into print-ready plates, they cannot insert variable data. Small press and fanzines generally use digital printing. Prior to the introduction of cheap photocopying the use of machines such as the spirit duplicator, hectograph, and mimeograph was common. 3D printing is a form of manufacturing technology where physical objects are created from three-dimensional digital models using 3D printers. The objects are created by laying down or building up many thin layers of material in succession. The technique is also known as additive manufacturing, rapid prototyping, or fabricating. Gang run printing is a method in which multiple printing projects are placed on a common paper sheet in an effort to reduce printing costs and paper waste. Gang runs are generally used with sheet-fed printing presses and CMYK process color jobs, which require four separate plates that are hung on the plate cylinder of the press. Printers use the term "gang run" or "gang" to describe the practice of placing many print projects on the same oversized sheet. Basically, instead of running one postcard that is 4 x 6 as an individual job the printer would place 15 different postcards on 20 x 18 sheet therefore using the same amount of press time the printer will get 15 jobs done in the roughly the same amount of time as one job. Printed electronics is the manufacturing of electronic devices using standard printing processes. Printed electronics technology can be produced on cheap materials such as paper or flexible film, which makes it an extremely cost-effective method of production. Since early 2010, the printable electronics industry has been gaining momentum and several large companies, including Bemis Company and Illinois Tool Works have made investments in printed electronics and industry associations including OE-A and FlexTech Alliance are contributing heavily to the advancement of the printed electronics industry. Printing terminologies are the specific terms used in printing industry. Following is the list of printing terminologies. On the effects of Gutenberg's printing Early printers manuals The classic manual of early hand-press technology is A somewhat later one, showing 18th century developments is
Cheap Color Copies(Redirected from Indigo Digital Press) HP Indigo building, Nes Ziona, Israel HP Indigo Division, is a company that was first developed and popularized as an Israeli company named Indigo Digital Press that was bought by Hewlett-Packard. It develops, manufactures and markets digital printing solutions, including printing presses, proprietary consumables and workflow. Founded in 1977, it was an independent company until it was acquired by HP in 2001. They have offices around the world, with headquarters in Nes Ziona, Israel. Customers of HP Indigo solutions include commercial printers, photo specialty printers, and label and packaging converters to print applications such as marketing collateral, photo albums, direct mail, labels, folding cartons, flexible packaging, books, manuals, and specialty jobs. The ability of digital presses to print without plates enables the use of variable data such as text or images, such as in personalized direct marketing applications, or in photo albums, which are usually printed in copies of one. Digital presses also make short-run and just-in-time printing cost-effective. In this way, digital presses have changed the economic models for print in a wide variety of market segments, cutting down on supply chain costs and simplifying the creation of campaigns that reach consumers in more creative, personalized ways. The name Indigo comes from a company formed by Benny Landa in 1977. Landa, known as the father of digital offset color printing, was born in Poland to post-World War II Jewish refugee parents, who later immigrated to Edmonton, Alberta, Canada. Landa's interest in printing goes back to the time he worked as a child in his father's photo shop. His father purchased a cigar store that had a small photo studio in the back which he developed, using his skills as a carpenter, into his own portrait studio. While a student in London, Landa got a job at Commercial Aid Printing Services (CAPS), a company offering printing services and microfilm solutions. Landa was instrumental in developing a solution that won the company a contract with Rolls Royce and was appointed as Head of R&D. However, CAPS lacked manufacturing capital and went into receivership in 1969. In 1971 he joined Gerald Frankel, the owner of CAPS, and founded a new company - Imaging Technology (Imtec). Landa led Imtec’s R&D activities and invented the company’s core imaging technology. While researching liquid toners at Imtec, he worked on a method of high-speed image development that would later lead to the invention of ElectroInk. At the start of the 1990s Indigo moved from a primarily research-driven business into a full-scale printing equipment manufacturing company. The company's first product would be a digital plotter/duplicator, bringing the tiny company (its 1991 sales totaled less than US$5 million, generating a profit of $440,000) head to head with such industry giants as Xerox and Canon. In 1993 Indigo launched the E-Print 1000 at IPEX trade show. The E-Print 1000 eliminated the expense and labor of the plate-printing setup process, printing directly from a computer file, and enabled inexpensive short-run color printing. Images not only could be readily changed, they could be changed from page to page, requiring neither additional setup or pauses in the print run. Instead of printing to metal plates, the E-Print created a latent image on the Photo Imaging Plate or PIP through the use of an electrostatic charge. This charged area would then attract the charged ElectroInk, which would in turn be transferred to the ITM or blanket, and then again transfer from the blanket to the paper or other substrate. Because 100% of the ink transfers from PIP to blanket to substrate, a different image and color could be printed with each rotation of the press. At the same time, Indigo's ElectroInk-based color inks offered print quality rivaling that of traditional printing processes. Almost 20 years later, and despite the numerous technological improvements, Indigo presses are still based on this core technology. In 1994 Indigo had an initial public offering on the NASDAQ stock exchange, selling 52 million shares at $20 per share and raising $100 million. The offering reduced Landa's personal holding in Indigo to 70 percent. As the stock continued to climb, the following year, Landa's paper worth reached some $2 billion by 1995. At the drupa trade show in 1995 Indigo launched another product: the Omnius press. Whereas E-Print focused on medium-volume single-sheet printing, Omnius brought digital printing to a variety of surfaces, including plastic, cardboard, film, and, especially, cans, bottles, and other packaging surfaces. Omnius was the precursor of today's portfolio of Indigo's labels and packaging presses. At the end of 1995, Indigo sales did not reach the expected levels, and the company found itself overstaffed. Despite a strong rise in revenues to $165 million, the company posted its fourth year of losses, of about $40 million. George Soros however still believed in the company’s potential and increased his investment to 30 percent of Indigo's shares by 1997. By 1998 the company improved its financial performance and revenues passed the $200 million mark for the first time. Hewlett-Packard offices in Nes Ziona In 2000 the Hewlett-Packard company made a $100m investment in Indigo, buying 14.8 million of Indigo's common shares, which represented 13.4 percent of the company's outstanding shares. On September 6, 2001, HP announced that it would acquire the remaining outstanding shares of Indigo Indigo N.V. (NASDAQ: INDG) for approximately $629 million in HP common stock and a potential future cash payment of up to $253 million contingent upon Indigo's achievement of long-term revenue goals, for an aggregate potential payment of up to $882 million.  In the following years, HP continued to invest in Israel-based graphic arts companies, acquiring Scitex Vision in 2005 and Nur Macroprinters in 2007. Other employees of HP in Israel (which includes not only employees of the Indigo division, but also of Scitex and Israeli's divisions of HP Labs, made it the second-largest foreign employer after Intel. Under the ownership of HP, Indigo developed and grew to become a world leader in the digital print industry. In 2002 they announced the first product manufactured jointly with HP: the HP Indigo 5000, and their second generation of products (known internally as "series 2") was born. Other products belonging to these series were the roll-fed ws4000 series. At drupa 2008 Indigo announced the Indigo 7000 digital press, with over 70% higher productivity over series 2. This product further pushed the break-even point versus offset lithography and enabled more pages to be economically viable on Indigo. Other presses unveiled at drupa included the double engine Indigo W7200 and the new derivative for labels, the Indigo WS6000. In August 2009 HP announced they had reached 5,000 HP Indigo digital presses in operation around the world. The company is ranked No. 1 in the US high-volume digital press market and, according to HP officials, has a 75% share of the world market for digital commercial photo printing. In March 2012 HP Indigo unveiled the Indigo 10000 B2/29" digital press and released it to market a year later. By March 2016, there were over 200 Indigo 10000 customer installations in over 20 countries. In September 2013, Indigo claimed dominance of the narrow label market, with General Manager Alon Bar-Shany calling the Indigo WS6600 press "the best-selling solution in the narrow web industry, not just in digital printing, (but) narrow overall."  In 2014, HP Indigo marked the launch of the new 20000 and 30000 digital presses, aimed at the packaging markets. The presses target flexible packaging converters, label converters and folding carton establishments. In 2016 Indigo announced a new portfolio based on innovation on four core pillars of their technology: quality, color, applications and productivity. They also announced PrintOS, a cloud-based platform to help customers. HP Indigo uses a proprietary, patented technology and a business model that sells both presses and their consumables, as well as services. The presses are assembled in a dedicated facility in HP's Kiryat Gat campus, and the inks are manufactured in both Kiryat Gat and TUAS, Singapore. Indigo has over 4500 customers in 120 countries around the world. They include some of the largest names in print world, including Cimpress and Consolidated Graphics (now part of RR Donnelley) but also a widevariety of small and medium-sized print service providers and labels and packaging converters. According to Indigo GM Alon Bar-Shany, volume printed on Indigo presses grew by over 50% from 2012 to 2016, reaching an estimated 30 B pages. The year 2005 marked the creation of Dscoop, the independent user's group of Indigo and HP Graphic Arts solutions. By 2015 it reached over 7000 users today, including owners and technical personnel. Dscoop membership is free of charge for HP Graphic Arts users throughout the Americas, Europe, the Middle East and Africa, Asia Pacific and Japan. There are several families of HP Indigo presses, which can be broadly grouped by the type of paper-handling mechanism they work with: Sheetfed (or cut-sheet) or Webfed (or roll-fed). Sheetfed presses print on sheets, have a feeder system consisting of drawers and/or a pallet of paper, and print on both sides of the paper (duplex print/perfecter), printed sheets are collected in a stacker mainly for paper printing. Examples of sheetfed presses include the HP Indigo 7900, the HP Indigo 10000 and the new HP Indigo 12000. Webfed presses print on rolls, often referred to as a web the feeder system (unwinder) feeds the paper through continuously in most cases, print on one side of the substrate (simplex) printed rolls can be collected on a rewinder or cut into sheets (sheeter). Examples of webfed presses are the HP Indigo WS6800 narrow format press for labels and flexible packaging, the Indigo 20000 digital press, and the Indigo W7250 for books, photo and other commercial applications. The launch of the HP Indigo 10000 digital press in 2012 marked the first time the company embarked on a platform that supports a paper size beyond A3. With the B2/29.5" paper format, they aim to increase the productivity and application range of traditional print service providers. In 2014 two new products based in the same type of engine/format were released, the Indigo 20000 and the Indigo 30000, aimed at the flexible packaging and folding-cartons markets, respectively. In 2016, Indigo introduced the 80/minutes per meter roll-fed 80000 press for label production, as well as new models of its sheetfed presses: the 12000, 7900 and 5900. The also announced the B1 roll-fed Indigo 50000, which is scheduled for release in 2017. In addition, the announced new solutions for packaging post-print under the Pack Ready umbrella, and demonstrated a concept for digital combination printing for labels. Each Indigo press has up to 7 color stations, which can use cyan, magenta, yellow, black and a variety of special and spot color inks, such as white, silver, UV red and transparent. HP provides the option for users to mix their own ink colors to match Pantone references. This is common with non-digital offset litho presses, and is one of the features that distinguishes the HP Indigo process. "Off-press" colors are mixed from 11 color (from the 15 original) Pantone spectrum at an offline, ink mixing station. Users can also order special pre-mixed colors from HP Indigo, for example fluorescent pink. HP Indigo presses are available in configurations supporting four, five, six or seven colors. At drupa 2008, Indigo unveiled a new workflow strategy for their portfolio called HP SmartStream, based on their own development and on partnerships with other industry vendors. Among the announcements was a [web-to-print] product in partnership with Press-Sense (later bought by Bitstream makers of Pageflex.) They also released new versions of their Digital Front Ends (DFEs). Today, their SmartStream workflow portfolio is based on both their own products, as well as partnerships with other graphic arts vendors in fields such as job creation, pre-press, variable data printing and finishing. In 2004 HP made a 100 million shekel investment in a new production site in Kiryat Gat, Israel. The factory is responsible for manufacturing HP Indigo ElectroInk. There is a sister facility in Singapore that also manufactures Indigo ElectroInk. In 2007 an adjacent hardware center was opened in Kiryat Gat. This facility assembles frames, feeders, and other components with imaging engines into finished presses, and also serves as the site for manufacturing other operator-replaceable consumables, such as the blanket. In late 2012, HP Indigo inaugurated a second ink plant in Kiryat Gat, which will focus on the manufacturing of ElectroInk for the new family of presses: the HP Indigo 10000, Indigo 20000 and Indigo 30000 digital presses. This 118,000 square feet facility is reported to be the first building in the country and the first HP manufacturing facility worldwide designed to meet the LEED Silver environmental standard. Early incarnations of the press (Series 1 engines) were prone to banding and ink adhesion problems. However newer models have corrected most of these issues.
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